1. There was a fatal poisoning by oxazepam. Which is the process of metabolism of 1,4benzodiazepine derivative used in isolation of oxazepam from biological objects by Izotov’s
method?
A. hydrolysis *
B. oxidation;
C. reduction;
D. formation of glucuronides;
E. dealkylation.
2. A directional forensic toxicological analysis of alkaloids (in object from dead men) is done. Which
methods of isolation should be used with?
A. Popova’s;
B. Stas-Otto’s;
C. Kramarenko’s *
D. Salomatin’s;
E. Vasilyeva’s.
3. There was a poisoning of unknown poison. Which drug will be extracted by chloroform from
acidic aqueous solution?
A. phenobarbital *
B. scopolamine;
C. ephedrine;
D. codeine;
E. novocaine.
4. There was a fatal poisoning by pyrazolone derivatives. To isolate this group of toxins used:
A. mineralization by a mixture of concentrated sulfuric and nitric acids;
B. extraction with organic solvents;
C. water extraction;
D. extraction with water, acidified by oxalic acid *
E. distillation with water vapor.
5. To do directional analysis of barbituric acid derivatives. In which method gel chromatography is
used for purification of barbiturates from aqueous solution?
A. Kramarenko’s;
B. Popova’s *
C. Stas-Otto’s;
D. Vasilieva’s;
E. Valov’s.
6. Kramarenko’s method is one of methods for isolation of some "drug" poisons. Which acid is used
for poisons isolation by Kramarenko’s method?
A. oxalic;
B. tartaric;
C. sulfuric *
D. acetic;
E. hydrochloric.
7. Stas-Otto’s method is one of general methods of poisons isolation. Proteins are sedimented in the
method of Stas-Otto’s by:
A. trichloroacetic acid;
B. Sodium tungstates;
C. ethanol *
D. acetone;
E. ammonium sulfate.
8. Valov’s method is one of specific methods. Isolating poisons by P. Valov’s is done by extraction
with:
A. acidified water;
B. neutral reaction with water;
C. alkalizing water *
D. acidified ethanol;
E. neutral acetone.
9. Choose extragent for poisons isolation from biological material in Salomatin’s method?
A. water;
B. ethanol;
C. acetone;
D. acetonitrile *
E. solution of sodium hydroxide.
10. Which method of isolation is used, if biological material is rotting?
A. Stas-Otto’s *
B. Kramarenko’s;
C. Vasilieva’s;
D. Kartashov;
E. each of these.
11. Forensic toxicologist does isolation of unknown poison by Vasilyeva’s method. The most complete
destruction of poison-protein bonds occurs at pH values equal to:
A. 9.10;
B. 11-12;
C. 4-5;
D. 2-3 *
E. 6-7.
12. Isolation of poisons by Vasilyeva’s method is done by:
A. acidified water *
B. acidified ethanol;
C. acidified acetone;
D. acidified acetonitrile;
E. neutral acetonitrile.
13. There was poisoning by barbiturates. Choose specific method of its isolation:
A. Stas-Otto’s;
B. Kramarenko’s;
C. Vasilieva’s;
D. Valov’s *
E. Izotov.
14. Isolation of poisons by Stas-Otto’s method is done by:
A. acidified water;
B. acidified ethanol *
C. acidified acetone;
D. acidified acetonitrile;
E. neutral acetone.
15. A directional investigation of biological material on the content of 1,4-benzodiazepine derivatives
is done. Choose specific method of isolation this group of poisons:
A. Valov’s;
B. Popova’s;
C. Stas-Otto’s;
D. Kramarenko’s;
E. Izotov’s *
16. Popov’s method is one of specific method for isolation some barbituric acid derivatives. Which
method is used for purification of acidic water extract in Popova’s method?
A. TLC;
B. gel chromatography *
C. sublimation;
D. dialysis;
E. freezing fat.
17. There was phenobarbital poisoning. Which method is used for purification of acidic water extract
in Popova’s method?
A. TLC;
B. gel chromatography *
C. sublimation;
D. dialysis;
E. presipitation of proteins by absolute ethanol.
18. There was a quinine poisoning. Choose specific method of isolation of quinine at directional
analysis?
A. Kramarenko’s *
B. Vasilieva’s;
C. Stas-Otto’s;
D. Izotov’s;
E. Valov’s.
19. There was a poisoning of hypnotic from group of barbiturates. Barbiturates are isolated by
specific method. Choose this method.
A. Vasilieva’s;
B. Valov’s *
C. Stas-Otto’s;
D. Kramarenko’s;
E. Kartashov’s.
20. Which method can effectively for isolation ob alkaloids from biological material?
A. Vasilieva’s;
B. Stas-Otto’s;
C. Kramarenko’s *
D. Kartashov’s;
E. Valov’s.
21. There was a fatal poisoning by Phenothiazine derivatives. Choose specific method of isolation this
group of poisons:
A. Popov’s;
B. Kartashov’s;
C. Stas-Otto’s;
D. Salomatin’s *
E. Vasilyeva’s.
22. Purification is one of the important stages in poisins isolation. Microsublimation is used for
purification of … derivatives.
A. for quinoline;
B. isoquinoline;
C. indole;
D. barbituric acid *
E. Phenothiazine.
23. There was poisoned by barbiturates. Choose specific methods of isolation.
A. Stas-Otto’s or Vasilyeva’s;
B. Kramarenko’s or Popova’s;
C. Vasilyeva’s or Valov’s;
D. Valov’s or Popova’s *
E. Izotov’s or Salomatin’s.
24. Which drug does not give murexide reaction?
A. Hexenal *
B. Barbamyl
C. Barbital
D. Phenobarbital
E. Caffeine
25. Which barbiturate is used mainly as an anticonvulsant agent?
A. hexenal
B. etaminal-sodium
C. barbital
D. benzonal *
E. butobarbital
26. Blue-violet color in the reaction of acidic chloroform extract with cobalt salts in the presence of
alkali. Which drug can present in extract?
A. barbamyl
B. barbital
C. benzonal *
D. phenobarbital
E. hexenal
27. Choose specific method of barbiturates isolation:
A. Vasilieva’s;
B. Valov’s *
C. Stas-Otto’s;
D. Kramarenko’s;
E. Kartashov’s.
28. Color reaction of barbiturates detection in the "acidic" chloroform extract is a reaction with?
A. iron (III) chloride and potassium iodide;
B. sulfuric acid;
C. zinc chloride-iodide;
D. izopropylamine and cobalt salts *
E. potassium diiodocopprate in iodine solution.
29. Phenobarbital is one of metabolite of a barbiturate. Which is barbiturate?
A. barbital
B. hexenal
C. diazepam
D. chlorpromazine
E. benzonal *
30. Pink color appears in murexide reaction and indicates on presence in the sample:
A. noxyron
B. salicylic acid
C. benzonal
D. hexenal
E. barbamyl *
31. There was a poisoning by benzonal. Choose specific method of its isolation:
A. Stas-Otto’s;
B. Kramarenko’s;
C. Vasilieva’s;
D. Popova’s *
E. Izotov’s.
32. Which barbiturates can be found in "acidic" chloroform extract by reaction potassium
diiodocopprate in iodine solution?
A. barbital
B. benzonal
C. hexenal
D. phenobarbital
E. Barbamyl *
33. Derivatives of barbituric acid are absorbed in:
A. mouth
B. stomach *
C. duodenum
D. colon
E. rectum
34. In which method of "drug" poisons isolation re-extraction and extraction is used for exctract
purification?
A. Kramarenko’s
B. Kartashov’s
C. Popova’s
D. Stas-Otto’s
E. Valov’s *
35. In which method of "drug" poisons isolation gel chromatography is used for exctract
purification?
A. Kramarenko’s
B. Kartashov’s
C. Popova’s *
D. Stas-Otto’s
E. Valov’s
36. Which factor does not influence on the degree of isolation of "drug" poisons from biological
material?
A. temperature *
B. degree of biological material crushing
C. pH
D. nature of the solvent (extragent)
E. nature of acid taken for the acidification
37. Which factor does not influence on the degree of isolation of "drug" poisons from biological
material?
A. pH
B. nature of the solvent
C. degree of biological material crushing
D. presence of salting-out agents *
E. nature of acid taken for the acidification
38. Choose pH of medium for extraction of barbiturates by organic solvents?
A. neutral
B. alkaline
C. acidic *
D. ammonia
E. acetonitrilic
39. Choose pH of medium for extraction of alkaloids by organic solvents?
A. neutral
B. alkaline *
C. acidic
D. ammonia
E. acetonitrilic
40. Choose pH of medium for extraction of p-aminobenzoic acid by organic solvents?
A. neutral
B. alkaline *
C. acidic
D. ammonia
E. acetonitrilic
41. Choose pH of medium for extraction of salicylates by organic solvents?
A. Neutral
B. alkaline
C. acidic *
D. ammonia
E. acetonitrilic
42. In which method of "drug" poisons isolation protein coagulation by ethanol is used for exctract
purification?
A. Kramarenko’s
B. Kartashov’s
C. Popova’s
D. Stas-Otto’s *
E. Valov’s
43. In which method of "drug" poisons isolation protein coagulation by acetone is used for exctract
purification?
A. Kramarenko’s
B. Kartashov’s *
C. Popova’s
D. Stas-Otto’s
E. Valov’s
44. In which method of "drug" poisons isolation ammonium sulfate is used as salting-out agent for
exctract purification?
A. Kramarenko’s *
B. Kartashov’s
C. Popova’s
D. Stas-Otto’s
E. Valov’s
45. In which method of "drug" poisons isolation sodium sulfate is used as salting-out agent for
exctract purification?
A. Salomatin’s *
B. Kartashov’s
C. Popova’s
D. Stas-Otto’s
E. Valov’s
46. Extragent of "drug" poisons from biological material in Stas-Otto’s method is:
A. water, acidified by oxalic acid
B. ethanol, acidified by oxalic acid *
C. acetonitrile, acidified by oxalic acid
D. chloroform
E. ethanol, acidified by sulfuric acid
47. Extragent of "drug" poisons from biological material in Vasilyeva’s method is:
A. water, acidified by oxalic acid *
B. ethanol, acidified by oxalic acid
C. acetonitrile, acidified by oxalic acid
D. chloroform
E. water, alkalized by sodium hydroxide
48. Extragent of "drug" poisons from biological material in Salomatin’s method is:
A. water, acidified by oxalic acid
B. ethanol, acidified by oxalic acid
C. acetonitrile, acidified by hydrochloric acid *
D. acetonitrile, acidified by oxalic acid
E. water, alkalized by sodium hydroxide
49. Which method is not specific method of isolation of "drug" poisons from biological material?
A. Popova’s
B. Valov’s
C. Izotov’s
D. Stas-Otto’s *
E. Salomatin’s
50. Extragent of "drug" poisons from biological material in Kramarenko’s method is:
A. water, acidified by oxalic acid
B. ethanol, acidified by oxalic acid
C. water, acidified by sulfuric acid *
D. acetonitrile, acidified by oxalic acid
E. water, alkalized by sodium hydroxide
51. Extragent of "drug" poisons from biological material in Kartashov’s method is:
A. water, acidified by oxalic acid
B. acetone, acidified by hydrochloric acid
C. acetonitrile, acidified by hydrochloric acid
D. acetonitrile, acidified by oxalic acid
E. acetone *
52. In which method of "drug" poisons isolation protein presipitation by complex formation with
tungsten acid is used for exctract purification?
A. Kramarenko’s
B. Kartashova
C. Popova’s
D. Stas-Otto’s
E. Valov’s *
53. Extragent of "drug" poisons from biological material in Valov’s method is:
A. water, acidified by oxalic acid
B. ethanol, acidified by oxalic acid
C. acetonitrile, acidified by hydrochloric acid
D. acetonitrile, acidified by oxalic acid
E. water, alkalized by sodium hydroxide *
54. Which method is not specific method of isolation of "drug" poisons from biological material?
A. Kartashov’s *
B. Valov’s
C. Izotov’s
D. Kramarenko’s
E. Salomatin’s
55. Which method is not specific method of isolation of "drug" poisons from biological material?
A. Popova’s
B. Valov’s
C. Vasilyeva’s *
D. Kramarenko’s
E. Salomatin’s
56. Which method is not belonging to general methods of isolating of "drug" poisons from biological
material?
A. B. Valov’s *
C. Vasilyeva’s
D. Kartashov’s
E. Stas-Otto’s
57. Which method is not belonging to general methods of isolating of "drug" poisons from biological
material?
A. B. Stas-Otto’s
C. Vasilyeva’s
D. Kartashov’s
E. Popova’s *
58. Which method is not belonging to general methods of isolating of "drug" poisons from biological
material?
A. B. Kartashov’s
C. Vasilyeva’s
D. Kramarenko’s *
E. Stas-Otto’s
59. Which method is not belonging to general methods of isolating of "drug" poisons from biological
material?
A. B. Vasilyeva’s
C. Izotov’s *
D. Kartashov’s
E. Stas-Otto’s
60. Barbiturates accumulated in largest amount at acute poisoning in:
A. bone marrow
B. liver *
C. brain
D. intestine
E. spleen
61. Barbiturates accumulated in largest amount at chronic poisoning in:
A. kidney
B. liver
C. brain *
D. intestine
E. spleen
62. Expert toxicologist did isolation of barbiturates by Popova’s method. Choose general solvent
system for TLC-screening of its.
A. chloroform-acetone-dioxane-25 % solution ammonia
B. chloroform-butanol-25 % ammonia solution
C. acetone-cyclohexane
D. chloroform-acetone *
E. ethyl acetate-benzene-ethanol-25 % ammonia solution
63. Expert toxicologist did isolation of barbiturates by Popova’s method. Choose specific solvent
system for TLC-screening of its.
A. chloroform-acetone-dioxane-25 % ammonia solution
B. chloroform-butanol-25% ammonia solution *
C. acetone-cyclohexane
D. chloroform-acetone
E. ethyl acetate-benzene-ethanol-25% ammonia solution
64. Chromatographic plate is developed by mercury sulfate solution and diphenylcarbazone at TLCscreening in the general solvent system. Blue-viloet stains (Rf = 0,37) are observed. Choose eluents
for stain eluation.
A. methanol
B. methanol-25% ammonia solution
C. methanol-diethyl amine
D. acetone *
E. acetone-cyclohexane
65. Choose developer for barbiturates detection on chromatogramme.
A. mercury sulfate and diphenylcarbazone *
B. iron (III) chloride
C. Dragendorff’s reagent
D. Sulfuric acid
E. reagent Scheibler’s
66. Specific solvent system for TLC-screening of barbiturates is mixture:
A. chloroform-acetone-dioxane-25 % ammonia solution
B. chloroform-acetone
C. acetone-cyclohexane
D. chloroform-butanol-25 % ammonia solution *
E. ethyl acetate-benzene-ethanol-25 % ammonia solution
67. Analysis of "acidic" ether extract for the presence of barbiturates is begun … reaction with...:
A. color; potassium diiodocopprate in a solution of iodine
B. color; zinc chloride-iodide
C. color, with cobalt salts and izopropylamine *
D. precipitation, rhodamine 6 G
E. microcrystaloscopic; with cobalt salts and izopropylamine
68. Rhodamine 6 G can be used as a reagent for detection of barbiturates. Which drug does give this
reaction?
A. Barbamyl, barbital
B. hexenal, phenobarbital
C. phenobarbital, benzonal
D. benzonal, butobarbital
E. Barbamyl, hexenal *
69. Expert toxicologist analyzes the "acidic" ether extract. He observes needle-like crystals in a
microcrystaloscopic reaction with concentrated sulfuric acid. Which barbiturates can be present
in the extract?
A. hexenal or butobarbital
B. phenobarbital or hexenal *
C. barbamyl or barbital
D. barbital or phenobarbital
E. benzonal or hexenal
70. Murexide reaction gave a positive analytical effect at investigation of "acid" chloroform extract.
Which barbiturates can be present in the extract?
A. butobarbital
B. hexenal
C. analgin
D. barbamyl *
E. benzonal
71. Violet crystals form in microcrystaloscopic reaction of "acidic" chloroform extract with copper
salts and pyridine. Which barbiturates can be present in the extract?
A. benzonal
B. hexenal
C. phenobarbital
D. barbamyl
E. barbital *
72. Gold-colored rectangular plates form in microcrystaloscopic reaction of "acidic" chloroform
extract with zinc chloride-iodide. Which barbiturates can be present in the extract?
A. salicylic acid
B. barbital
C. barbamyl *
D. hexenal
E. benzonal
73. Which barbiturates can not be detected in the extract by microcrystaloscopic reaction with iron
(III) chloride and potassium iodide?
A. barbamyl
B. butobarbital
C. phenobarbital
D. barbital *
E. etaminal sodium
74. Which barbiturates can not be detected in the extract by microcrystaloscopic reaction with
alcohol solution of potassium iodide?
A. barbital
B. etaminal sodium
C. butobarbital
D. hexenal
E. phenobarbital *
75. Which barbiturates can not be detected in the extract by microcrystaloscopic reaction with zinc
chloride-iodide?
A. butobarbital
B. phenobarbital *
C. barbamyl
D. etaminal sodium
E. barbital
76. Which barbiturates can not be detected in the extract by murexide reaction?
A. phenobarbital
B. etaminal sodium
C. benzonal *
D. barbamyl
E. barbital
77. Choose a reagent for microcrystaloscopic reaction on barbiturates:
A. copper salts and pyridine *
B. cobalt salts and izopropylamine
C. cobalt salt and alkali
D. murexide reaction
E. rhodamine 6 G
78. Choose a reagent for microcrystaloscopic reaction on barbiturates:
A. acidified alcoholic solution of potassium iodide *
B. salts of cobalt and izopropylamine
C. cobalt salt and alkali
D. murexide reaction
E. rhodamine 6 G
79. Which method is used for separation of "drug" poisons only in forensic chemical analysis?
A. Extraction *
B. Chemical reactions
C. UV spectroscopy
D. TLC
E. HPLC
80. Which developer is used in TLC-screening of barbituric acid derivatives? Choose Rf and color of
stain.
A. Mercury (II) sulfate and diphenylcarbazone, 0,31-0,41, blue-violet *
B. Mercury (I) sulfate and diphenylcarbazone, 0,31-0,41, blue-violet
C. Dragendorff’s reagent, 0,41-0,64, blue-violet
D. Mercury (I) chloride and diphenylcarbazone, 0,31-0,41, purple
E. Iron (III) chloride, 0-0,25, blue-violet
81. Which developer is used in TLC-screening of barbital? Choose Rf and color of stain.
A. Mercury (II) sulfate and diphenylcarbazone, 0,31-0,41, blue-violet *
B. Mercury (I) sulfate and diphenylcarbazone, 0,31-0,41, blue-violet
C. Dragendorff’s reagent, 0,41-0,64, blue-violet
D. Mercury (I) chloride and diphenylcarbazone, 0,31-0,41, purple
E. Iron (III) chloride, 0-0,25, blue-violet
82. Which developer is used in TLC-screening of Barbamyl? Choose Rf and color of stain.
A. Mercury (II) sulfate and diphenylcarbazone, 0,31-0,41, blue-violet *
B. Mercury (I) sulfate and diphenylcarbazone, 0,31-0,41, blue-violet
C. Dragendorff’s reagent, 0,41-0,64, blue-violet
D. Mercury (I) chloride and diphenylcarbazone, 0,31-0,41, purple
E. Iron (III) chloride, 0-0,25, blue-violet
83. Which developer is used in TLC-screening of phenobarbital? Choose Rf and color of stain.
A. Mercury (II) sulfate and diphenylcarbazone, 0,31-0,41, blue-violet *
B. Mercury (I) sulfate and diphenylcarbazone, 0,31-0,41, blue-violet
C. Dragendorff’s reagent, 0,41-0,64, blue-violet
D. Mercury (I) chloride and diphenylcarbazone, 0,31-0,41, purple
E. Iron (III) chloride, 0-0,25, blue and purple
84. Which developer is used in TLC-screening of hexenal? Choose Rf and color of stain.
A. Mercury (II) sulfate and diphenylcarbazone, 0,31-0,41, blue-violet *
B. Mercury (I) sulfate and diphenylcarbazone, 0,31-0,41, blue-violet
C. Dragendorff’s reagent, 0,41-0,64, blue-violet
D. Mercury (I) chloride and diphenylcarbazone, 0,31-0,41, purple
E. Iron (III) chloride, 0-0,25, blue-violet
85. Which developer is used in TLC-screening of benzonal? Choose Rf and color of stain.
A. Mercury (II) sulfate and diphenylcarbazone, 0,31-0,41, blue-violet *
B. Mercury (I) sulfate and diphenylcarbazone, 0,31-0,41, blue-violet
C. Dragendorff’s reagent, 0,41-0,64, blue-violet
D. Mercury (I) chloride and diphenylcarbazone, 0,31-0,41, purple
E. Iron (III) chloride, 0-0,25, blue-violet
86. Which developer is used in TLC-screening of butobarbital? Choose Rf and color of stain.
A. Mercury (II) sulfate and diphenylcarbazone, 0,31-0,41, blue-violet *
B. Mercury (I) sulfate and diphenylcarbazone, 0,31-0,41, blue-violet
C. Dragendorff’s reagent, 0,41-0,64, blue-violet
D. Mercury (I) chloride and diphenylcarbazone, 0,31-0,41, purple
E. Iron (III) chloride, 0-0,25, blue-violet
87. Which developer is used in TLC-screening of etaminal sodium? Choose Rf and color of stain.
A. Mercury (II) sulfate and diphenylcarbazone, 0,31-0,41, blue-violet *
B. Mercury (I) sulfate and diphenylcarbazone, 0,31-0,41, blue-violet
C. Dragendorff’s reagent, 0,41-0,64, blue-violet
D. Mercury (I) chloride and diphenylcarbazone, 0,31-0,41, purple
E. Iron (III) chloride, 0-0,25, blue-violet
88. Which developer is used in TLC-screening of salicylic acid derivatives? Choose Rf and color of
stain.
A. Iron (III) chloride, 0-0,25, blue-violet *
B. Iron (II) sulfate, 0,31-0,41, blue-violet
C. Mercury (I) sulfate and diphenylcarbazone, 0,31-0,41, blue-violet
D. Dragendorff’s reagent, 0,41-0,64, blue-violet
E. Iron (II) chloride, 0-0,25, blue-violet
89. Which developer is used in TLC-screening of salicylic acid? Choose Rf and color of stain.
A. Iron (III) chloride, 0-0,25, blue-violet *
B. Iron (II) sulfate, 0,31-0,41, blue-violet
C. Mercury (I) sulfate and diphenylcarbazone, 0,31-0,41, blue-violet
D. Dragendorff’s reagent, 0,41-0,64, blue-violet
E. Iron (II) chloride, 0-0,25, blue-violet
90. Which developer is used in TLC-screening of aspirin? Choose Rf and color of stain.
A. Iron (III) chloride, 0-0,25, blue-violet *
B. Iron (II) sulfate, 0,31-0,41, blue-violet
C. Mercury (I) sulfate and diphenylcarbazone, 0,31-0,41, blue-violet
D. Dragendorff’s reagent, 0,41-0,64, blue-violet
E. Iron (II) chloride, 0-0,25, blue-violet
91. Which developer is used in TLC-screening of sodium salicylate? Choose Rf and color of stain.
A. Iron (III) chloride, 0-0,25, blue-violet *
B. Iron (II) sulfate, 0,31-0,41, blue-violet
C. Mercury (I) sulfate and diphenylcarbazone, 0,31-0,41, blue-violet
D. Dragendorff’s reagent, 0,41-0,64, blue-violet
E. Iron (II) chloride, 0-0,25, blue-violet
92. Blue-violet stain (Rf = 0,38) appears at TLC-screening of acid chloroform extract in chloroformacetone solution. Plate is developed by Mercury (II) sulfate and diphenylcarbazone. Which
substance may be in extract?
A. Barbital *
B. Salicyl amide
C. Aspirin
D. Caffeine
E. Meconin
93. Which developer is used in TLC-screening for the detection of caffeine? Choose Rf and color of
stain.
A. Dragendorff’s reagent, 0-0,25, orange-brown *
B. Iron (III) chloride, 0-0,25, blue-violet
C. Iron (II) sulfate, 0,31-0,41, blue-violet
D. Mercury (I) sulfate and diphenylcarbazone, 0,31-0,41, blue-violet
E. Iron (II) chloride, 0-0,25, blue-violet
94. Which developer is used in TLC-screening for the detection of theophylline? Choose Rf and color
of stain.
A. Dragendorff’s reagent, 0-0,25, orange-brown *
B. Iron (III) chloride, 0-0,25, blue-violet
C. Iron (II) sulfate, 0,31-0,41, blue-violet
D. Mercury (I) sulfate and diphenylcarbazone, 0,31-0,41, blue-violet
E. Iron (II) chloride, 0-0,25, blue-violet
95. Which developer is used in TLC-screening for theobromine? Choose Rf and color of stain.
A. Dragendorff’s reagent, 0-0,25, orange-brown *
B. Iron (III) chloride, 0-0,25, blue-violet
C. Iron (II) sulfate, 0,31-0,41, blue-violet
D. Mercury (I) sulfate and diphenylcarbazone, 0,31-0,41, blue-violet
E. Iron (II) chloride, 0-0,25, blue-violet
96. Blue-violet stain (Rf = 0,40) appears at TLC-screening of acid chloroform extract in chloroformacetone solution. Plate is developed by Mercury (II) sulfate and diphenylcarbazone. Which
substance may be in extract?
A. Benzonal *
B. Salicyl amide
C. Aspirin
D. Caffeine
E. Meconin
97. Blue-violet stain (Rf = 0,33) appears at TLC-screening of acid chloroform extract in chloroformacetone solution. Plate is developed by Mercury (II) sulfate and diphenylcarbazone. Which
substance may be in extract?
A. Phenobarbital *
B. Salicyl amide
C. Aspirin
D. Caffeine
E. Meconin
98. Blue-violet stain (Rf = 0,34) appears at TLC-screening of acid chloroform extract in chloroformacetone solution. Plate is developed by Mercury (II) sulfate and diphenylcarbazone. Which
substance may be in extract?
A. Barbamyl *
B. Salicyl amide
C. Aspirin
D. Caffeine
E. Meconin
99. Blue-violet stain (Rf = 0,35) appears at TLC-screening of acid chloroform extract in chloroformacetone solution. Plate is developed by Mercury (II) sulfate and diphenylcarbazone. Which
substance may be in extract?
A. Hexenal *
B. Salicyl amide
C. Aspirin
D. Caffeine
E. Meconin
100.
Blue-violet stain (Rf = 0,39) appears at TLC-screening of acid chloroform extract in
chloroform-acetone solution. Plate is developed by Mercury (II) sulfate and diphenylcarbazone.
Which substance may be in extract?
A. Butobarbital *
B. Salicyl amide
C. Aspirin
D. Caffeine
E. Meconin
101.
Blue-violet stain (Rf = 0,38) appears at TLC-screening of acid chloroform extract in
chloroform-acetone solution. Plate is developed by Mercury (II) sulfate and diphenylcarbazone.
Which substance may be in extract?
A. Sodium etaminal *
B. Salicyl amide
C. Sodium Metamizole
D. Caffeine
E. Meconin
102.
Blue-violet stain (Rf = 0,20) appears at TLC-screening of acid chloroform extract in
chloroform-acetone solution. Plate is developed by iron (III) chloride. Which substance may be in
extract?
A.
B.
C.
D.
E.
Salicyl amide *
Sodium etaminal
Phenobarbital
Caffeine
Meconin
103.
Blue-violet stain (Rf = 0,18) appears at TLC-screening of acid chloroform extract in
chloroform-acetone solution. Plate is developed by iron (III) chloride. Which substance may be in
extract?
A. Salicylic acid *
B. Sodium etaminal
C. Phenobarbital
D. Caffeine
E. Meconin
104.
Blue-violet stain (Rf = 0,12) appears at TLC-screening of acid chloroform extract in
chloroform-acetone solution. Plate is developed by iron (III) chloride. Which substance may be in
extract?
A. Sodium salicylates *
B. Sodium etaminal
C. Phenobarbital
D. Caffeine
E. Meconin
105.
Blue-violet stain (Rf = 0,11) appears at TLC-screening of acid chloroform extract in
chloroform-acetone solution. Plate is developed by iron (III) chloride. Which substance may be in
extract?
A. Aspirin *
B. Sodium etaminal
C. Phenobarbital
D. Caffeine
E. Meconin
106.
Red stain (Rf = 0,60) appears at TLC-screening of acid chloroform extract in chloroformacetone solution. Plate is developed by iron (III) chloride. Which substance may be in extract?
A. Antipyrine *
B. Sodium etaminal
C. Phenobarbital
D. Caffeine
E. Meconin
107.
Violet stain (Rf = 0,48) appears at TLC-screening of acid chloroform extract in
chloroform-acetone solution. Plate is developed by iron (III) chloride. Which substance may be in
extract?
A. Amidopyrinum *
B. Sodium etaminal
C. Phenobarbital
D. Caffeine
E. Meconin
108.
Orange-brown stain appears at TLC-screening of acid chloroform extract in chloroformacetone solution. Plate is developed by Dragendorff’s reagent. Which substance may be in
extract?
A. Antipyrine *
B. Sodium etaminal
C. Phenobarbital
D. Meconic acid
E. Meconin
109.
Orange-brown stain appears at TLC-screening of acid chloroform extract in chloroformacetone solution. Plate is developed by Dragendorff’s reagent. Which substance may be in
extract?
A. Chlordiazepoxide *
B.
C.
D.
E.
Sodium etaminal
Phenobarbital
Meconic acid
Meconin
110.
Orange-brown stain appears at TLC-screening of
acetone solution. Plate is developed by Dragendorff’s
extract?
A. Oxazepam *
B. Sodium etaminal
C. Phenobarbital
D. Meconic acid
E. Meconin
111.
Orange-brown stain appears at TLC-screening of
acetone solution. Plate is developed by Dragendorff’s
extract?
A. Nitrazepam *
B. Sodium etaminal
C. Phenobarbital
D. Meconic acid
E. Meconin
112.
Orange-brown stain appears at TLC-screening of
acetone solution. Plate is developed by Dragendorff’s
extract?
A. Diazepam *
B. Sodium etaminal
C. Phenobarbital
D. Meconic acid
E. Meconin
113.
Orange-brown stain appears at TLC-screening of
acetone solution. Plate is developed by Dragendorff’s
extract?
A. Caffeine *
B. Sodium etaminal
C. Phenobarbital
D. Salicylic acid
E. Meconin
114.
Orange-brown stain appears at TLC-screening of
acetone solution. Plate is developed by Dragendorff’s
extract?
A. Theobromine *
B. Sodium etaminal
C. Phenobarbital
D. Aspirin
E. Meconin
115.
Orange-brown stain appears at TLC-screening of
acetone solution. Plate is developed by Dragendorff’s
extract?
A. Theophylline *
B. Sodium etaminal
C. Phenobarbital
D. Atropine
E. Meconin
116.
Orange-brown stain appears at TLC-screening of
acetone solution. Plate is developed by Dragendorff’s
extract?
A. Phenylbutazone *
acid chloroform extract in chloroformreagent. Which substance may be in
acid chloroform extract in chloroformreagent. Which substance may be in
acid chloroform extract in chloroformreagent. Which substance may be in
acid chloroform extract in chloroformreagent. Which substance may be in
acid chloroform extract in chloroformreagent. Which substance may be in
acid chloroform extract in chloroformreagent. Which substance may be in
acid chloroform extract in chloroformreagent. Which substance may be in
B.
C.
D.
E.
Sodium etaminal
Phenobarbital
Meconic acid
Meconin
117.
Specific solvent system for TLC-screening
of barbiturates is the system:
A. Chloroform-butanol-ammonia *
B. Chloroform-ethanol-ammonia
C. Ethyl acetate-benzene-ethanol-ammonia
D. Acetone-cyclohexane
E. Acetone-cyclohexanol
118.
Specific solvent system for TLC-screening
of barbital is the system:
A. Chloroform-butanol-ammonia *
B. Chloroform-ethanol-ammonia
C. Ethyl acetate-benzene-ethanol-ammonia
D. Acetone-cyclohexane
E. Acetone-cyclohexanol
119.
Specific solvent system for TLC-screening
of barbamyl is the system:
A. Chloroform-butanol-ammonia *
B. Chloroform-ethanol-ammonia
C. Ethyl acetate-benzene-ethanol-ammonia
D. Acetone-cyclohexane
E. Acetone-cyclohexanol
120.
Specific solvent system for TLC-screening
of phenobarbital is the system:
A. Chloroform-butanol-ammonia *
B. Chloroform-ethanol-ammonia
C. Ethyl acetate-benzene-ethanol-ammonia
D. Acetone-cyclohexane
E. Acetone-cyclohexanol
121.
Specific solvent system for TLC-screening
of butobarbital is the system:
A. Chloroform-butanol-ammonia *
B. Chloroform-ethanol-ammonia
C. Ethyl acetate-benzene-ethanol-ammonia
D. Acetone-cyclohexane
E. Acetone-cyclohexanol
122.
Specific solvent system for TLC-screening
of sodium etaminal is the system:
A. Chloroform-butanol-ammonia *
B. Chloroform-ethanol-ammonia
C. Ethyl acetate-benzene-ethanol-ammonia
D. Acetone-cyclohexane
E. Acetone-cyclohexanol
123.
Specific solvent system for TLC-screening
of benzonal is the system:
A. Chloroform-butanol-ammonia *
B. Chloroform-ethanol-ammonia
C. Ethyl acetate-benzene-ethanol-ammonia
D. Acetone-cyclohexane
E. Acetone-cyclohexanol
124.
Specific solvent system for TLC-screening
of hexenal is the system:
A. Chloroform-butanol-ammonia *
of "acidic" chloroform extract on the presence
of "acidic" chloroform extract on the presence
of "acidic" chloroform extract on the presence
of "acidic" chloroform extract on the presence
of "acidic" chloroform extract on the presence
of "acidic" chloroform extract on the presence
of "acidic" chloroform extract on the presence
of "acidic" chloroform extract on the presence
B.
C.
D.
E.
Chloroform-ethanol-ammonia
Ethyl acetate-benzene-ethanol-ammonia
Acetone-cyclohexane
Acetone-cyclohexanol
125.
Specific solvent system for TLC-screening
of salicylates is the system:
A. Acetone-cyclohexane *
B. Acetone-cyclohexanol
C. Chloroform-butanol-ammonia
D. Chloroform-ethanol-ammonia
E. Ethyl acetate-benzene-ethanol-ammonia
126.
Specific solvent system for TLC-screening
of salicylic acid is system:
A. Acetone-cyclohexane *
B. Acetone-cyclohexanol
C. Chloroform-butanol-ammonia
D. Chloroform-ethanol-ammonia
E. Ethyl acetate-benzene-ethanol-ammonia
127.
Specific solvent system for TLC-screening
of salicyl amide is system:
A. Acetone-cyclohexane *
B. Acetone-cyclohexanol
C. Chloroform-butanol-ammonia
D. Chloroform-ethanol-ammonia
E. Ethyl acetate-benzene-ethanol-ammonia
128.
Specific solvent system for TLC-screening
of acetylsalicylic acid is system:
A. Acetone-cyclohexane *
B. Acetone-cyclohexanol
C. Chloroform-butanol-ammonia
D. Chloroform-ethanol-ammonia
E. Ethyl acetate-benzene-ethanol-ammonia
129.
Specific solvent system for TLC-screening
of alkaloids is system:
A. Acetone-cyclohexane *
B. Acetone-cyclohexanol
C. Chloroform-butanol-ammonia
D. Chloroform-ethanol-ammonia
E. Ethyl acetate-benzene-ethanol-ammonia
130.
Specific solvent system for TLC-screening
of caffeine is the system:
A. Acetone-cyclohexane *
B. Acetone-cyclohexanol
C. Chloroform-butanol-ammonia
D. Chloroform-ethanol-ammonia
E. Ethyl acetate-benzene-ethanol-ammonia
131.
Specific solvent system for TLC-screening
of theobromine is system:
A. Acetone-cyclohexane *
B. Acetone-cyclohexanol
C. Chloroform-butanol-ammonia
D. Chloroform-ethanol-ammonia
E. Ethyl acetate-benzene-ethanol-ammonia
132.
Specific solvent system for TLC-screening
of theophylline is system:
A. Acetone-cyclohexane *
of "acidic" chloroform extract on the presence
of "acidic" chloroform extract on the presence
of "acidic" chloroform extract on the presence
of "acidic" chloroform extract on the presence
of "acidic" chloroform extract on the presence
of "acidic" chloroform extract on the presence
of "acidic" chloroform extract on the presence
of "acidic" chloroform extract on the presence
B.
C.
D.
E.
Acetone-cyclohexanol
Chloroform-butanol-ammonia
Chloroform-ethanol-ammonia
Ethyl acetate-benzene-ethanol-ammonia
133.
Specific solvent system for TLC-screening
of pyrazolone derivatives is system:
A. Acetone-cyclohexane *
B. Acetone-cyclohexanol
C. Chloroform-butanol-ammonia
D. Chloroform-ethanol-ammonia
E. Ethyl acetate-benzene-ethanol-ammonia
134.
Specific solvent system for TLC-screening
of antipyrine is system:
A. Acetone-cyclohexane *
B. Acetone-cyclohexanol
C. Chloroform-butanol-ammonia
D. Chloroform-ethanol-ammonia
E. Ethyl acetate-benzene-ethanol-ammonia
135.
Specific solvent system for TLC-screening
of sodium metamizole is system:
A. Acetone-cyclohexane *
B. Acetone-cyclohexanol
C. Chloroform-butanol-ammonia
D. Chloroform-ethanol-ammonia
E. Ethyl acetate-benzene-ethanol-ammonia
136.
Specific solvent system for TLC-screening
of aspirin is system:
A. Acetone-cyclohexane *
B. Acetone-cyclohexanol
C. Chloroform-butanol-ammonia
D. Chloroform-ethanol-ammonia
E. Ethyl acetate-benzene-ethanol-ammonia
137.
Specific solvent system for TLC-screening
of phenylbutazone is the system:
A. Acetone-cyclohexane *
B. Acetone-cyclohexanol
C. Chloroform-butanol-ammonia
D. Chloroform-ethanol-ammonia
E. Ethyl acetate-benzene-ethanol-ammonia
138.
Specific solvent system for TLC-screening
Amidopyrinum is system:
A. Acetone-cyclohexane *
B. Acetone-cyclohexanol
C. Chloroform-butanol-ammonia
D. Chloroform-ethanol-ammonia
E. Ethyl acetate-benzene-ethanol-ammonia
139.
Specific solvent system for TLC-screening
of 1,4-benzodiazepines is the system:
A. Ethyl acetate-benzene-ethanol-ammonia *
B. Ethyl acetate-benzene-methanol-ammonia
C. Acetone-cyclohexanol
D. Chloroform-butanol-ammonia
E. Chloroform-ethanol-ammonia
140.
Phenacetin is metabolized in organism by:
A. Dealkylation (phase I biotransformation) *
B. Dealkylation (phase II biotransformation)
of "acidic" chloroform extract on the presence
of "acidic" chloroform extract on the presence
of "acidic" chloroform extract on the presence
of "acidic" chloroform extract on the presence
of "acidic" chloroform extract on the presence
of "acidic" chloroform extract on the presence
of "acidic" chloroform extract on the presence
C. Deamination (phase I biotransformation)
D. Methylation (phase II biotransformation)
E. Acetylation (phase II biotransformation)
141.
Phenacetin is metabolized in organism by:
A. Hydroxylation (phase I biotransformation) *
B. Dealkylation (phase II biotransformation)
C. Deamination (phase I biotransformation)
D. Methylation (phase II biotransformation)
E. Acetylation (phase II biotransformation)
142.
Choose the metabolite of phenacetin in organism:
A. p- phenetidin *
B. p-phencyclidyn
C. o-paracetamol
D. p-nitrophenol
E. phenol
143.
Choose the metabolite of phenacetin in organism:
A. Paracetamol *
B. p- phencyclidyn
C. o-paracetamol
D. p-nitrophenol
E. phenol
144.
Choose a product phenacetinu metabolism in the body:
A. p-aminophenol *
B. p-phencyclidyn
C. o-paracetamol
D. p-nitrophenol
E. phenol
145.
Which "drug" poison is caused of methemoglobinemia and isolated in acidic chloroform
extract:
A. Phenacetin *
B. Aspirin
C. Sodium nitrite
D. Caffeine
E. Phenobarbital
146.
Which "drug" poison is caused of methemoglobinemia and isolated in acidic chloroform
extract:
A. Antipyrine *
B. Aspirin
C. Sodium nitrite
D. Caffeine
E. Phenobarbital
147.
Phenacetin is detected after ... on ... in "acidic" chloroform extract:
A. Hydrolysis, p-aminophenol *
B. Hydrolysis, paracetamol
C. Reduction of paracetamol
D. Oxidation of nitrophenol
E. it will be in “alkaline” chloroform extract
148.
Which color does apper at addition a few drops of potassium dichromate (reaction
formation of indophenol dye) to hydrolyzate of "acidic" chloroform extract containing
phenacetin?
A. Cherry-red color *
B. Smell
C. Blue color
D. Red color
E. Yellow color
149.
Which color does apper at addition a few drops of bleach and ammonia (reaction
formation of indophenol dye salt) to hydrolyzate of "acidic" chloroform extract containing
phenacetin?
A. Blue color *
B. Cherry-red color
C. Smell
D. Red color
E. Yellow color
150.
If you detect phenacetin contained in the "acidic" chloroform extract, you use reaction
formation of ethyl acetate. It observed:
A. Smell *
B. Cherry-red color
C. Blue color
D. Red color
E. Yellow color
151.
At addition to hydrolyzate of "acidic" chloroform extract containing phenacetin a few
drops of sodium nitrite in the presence of hydrochloric acid and alkaline solution of β-naphthol is
observed:
A. Red color *
B. Cherry-red color
C. Smell
D. Blue color
E. Yellow color
152.
At heating of "acidic" chloroform extract containing phenacetin with nitric acid is
observed:
A. Yellow color *
B. Cherry-red color
C. Smell
D. Blue color
E. Red color
153.
Which reaction isn’t used to detect of phenacetin in "acidic" chloroform extract?
A. Formation aurinic dye *
B. Formation indophenol dye
C. Formation of 3-nitrophenacetin
D. Formation of m-nitrophenacetin
E. Formation of ethyl acetate
154.
Violet color appears at action of "acidic" chloroform extract with iron (III) chloride
solution. Which poison can be in extract?
A. Amidopyrinum *
B. Antipyrine
C. Meconic acid
D. Narcotine
E. Phenacetin
155.
Violet color appears at action of "acidic" chloroform extract with iron (III) chloride
solution. Which poison can be in extract?
A. Salicylic acid *
B. Antipyrine
C. Meconic acid
D. Narcotine
E. Phenacetin
156.
Violet color appears at action of "acidic" chloroform extract with iron (III) chloride
solution. Which poison can be in extract?
A. Amidopyrinum or salicylic acid *
B. Antipyrine or meconic acid
C. Meconic acid or narcotine
D. Narcotine
E. Phenacetin
157.
Red color appears at action of "acidic" chloroform extract with iron (III) chloride solution.
Which poison can be in extract?
A. Antipyrine *
B. Amidopyrinum
C. Meconin
D. Narcotine
E. Phenacetin
158.
Red color appears at action of "acidic" chloroform extract with iron (III) chloride solution.
Which poison can be in extract?
A. Meconic acid *
B. Amidopyrinum
C. Anabasine
D. Narcotine
E. Phenacetin
159.
Red-violet color appears at action of "acidic" chloroform extract with iron (III) chloride
solution. Which poison can be in extract?
A. Analgin *
B. Antipyrine
C. Meconic acid
D. Narcotine
E. Phenacetin
160.
Violet color appears at action of "acidic" chloroform extract with sodium nitrite in the
presence of hydrochloric acid. Which poison can be in extract?
A. Amidopyrinum *
B. Antipyrine
C. Meconic acid
D. Narcotine
E. Phenacetin
161.
Green color appears at action of "acidic" chloroform extract with sodium nitrite in the
presence of hydrochloric acid. Which poison can be in extract?
A. Antipyrine *
B. Amidopyrinum
C. Meconic acid
D. Narcotine
E. Phenacetin
162.
Red-brown color appears at action of "acidic" chloroform extract with sodium nitrite in
the presence of hydrochloric acid. Which poison can be in extract?
A. Phenylbutazone *
B. Antipyrine
C. Meconic acid
D. Narcotine
E. Phenacetin
163.
Greenish-blue color appears at action of "acidic" chloroform extract with sodium nitrite in
the presence of hydrochloric acid. Which poison can be in extract?
A. Analgin *
B. Antipyrine
C. Meconic acid
D. Narcotine
E. Phenacetin
164.
Lignin test is used to identify of "drug" poison. Choose this poison.
A. Metamizole sodium *
B. Antipyrine
C. Meconic acid
D. Narcotine
E. Phenacetin
Nessler’s reagent is used to identify of "drug" poison. Choose this poison.
A. Metamizole sodium *
B. Antipyrine
C. Meconic acid
D. Narcotine
E. Phenacetin
166.
Nessler’s reagent is added to "acidic" chloroform extract containing analgin and heated.
This appearance is observed:
A. orange precipitate *
B. red color
C. pink stains
D. blue-green color
E. reaction is not used
167.
Perhydrol is added to "acidic" chloroform extract containing analgin. This appearance is
observed:
A. pink stains *
B. orange precipitate
C. red color
D. blue-green color
E. reaction is not used
168.
Perhydrol is used to identify of "drug" poison. Choose this poison.
A. Metamizole *
B. Antipyrine
C. Meconic acid
D. Narcotine
E. Phenacetin
169.
Perhydrol is used to identify of "drug" poison. Choose this poison.
A. Analgin *
B. Antipyrine
C. Meconic acid
D. Narcotine
E. Phenacetin
170.
Azo-dye reaction is used to identify of "drug" poison. Choose this poison.
A. Antipyrine *
B. Analgin
C. Meconic acid
D. Narcotine
E. Barbital
171.
Azo-dye reaction is used to identify of "drug" poison. Choose this poison.
A. Phenacetin *
B. Analgin
C. Meconic acid
D. Narcotine
E. Barbital
172.
Azo-dye reaction is used to identify of "drug" poison. Choose this poison.
A. Antipyrine or phenacetin *
B. Analgin or antipyrine
C. Meconic acid or phenobarbital
D. Narcotine or caffeine
E. Barbital or benzonal
173.
Rubazonic acid is metabolite of …..
A. Amidopyrinum *
B. Antipyrine
C. Meconic acid
D. Narcotine
E. Phenacetin
165.
174.
A.
B.
C.
D.
E.
175.
A.
B.
C.
D.
E.
176.
A.
B.
C.
D.
E.
177.
A.
B.
C.
D.
E.
178.
A.
B.
C.
D.
E.
179.
A.
B.
C.
D.
E.
180.
A.
B.
C.
D.
E.
181.
A.
B.
C.
D.
E.
182.
A.
B.
C.
D.
E.
183.
A.
Methylrubazonic acid is metabolite of …..
Amidopyrinum *
Antipyrine
Meconic acid
Narcotine
Phenacetin
4-aminoantipyrine is metabolite of …..
Amidopyrinum *
Antipyrine
Meconic acid
Narcotine
Phenacetin
4-monomethylaminoantipyrine is metabolite of …..
Amidopyrinum *
Antipyrine
Meconic acid
Narcotine
Phenacetin
4-monomethylaminoantipyrine is metabolite of …..
Analgin *
Antipyrine
Meconic acid
Narcotine
Phenacetin
4-monomethylaminoantipyrine is metabolite of …..
Amidopyrinum and analgin *
Antipyrine and Amidopyrinum
Meconic acid and narcotine
Narcotine and analgin
Phenacetin and caffeine
N-acetyl-4-aminoantypyrin is metabolite of …..
Amidopyrinum *
Antipyrine
Meconic acid
Narcotine
Phenacetin
N-acetyl-4-aminoantypyrin is metabolite of …..
Analgin *
Antipyrine
Meconic acid
Narcotine
Phenacetin
N-acetyl-4-aminoantypyrin is metabolite of …..
Amidopyrinum and analgin *
Antipyrine and Amidopyrinum
Meconic acid and narcotine
Narcotine and analgin
Phenacetin and caffeine
Silver nitrate is used to identify of "drug" poison. Choose this poison.
Amidopyrinum *
Antipyrine
Meconic acid
Narcotine
Phenacetin
Chromotrope acid is used to identify of "drug" poison. Choose this poison.
Amidopyrinum *
B.
C.
D.
E.
Antipyrine
Meconic acid
Narcotine
Phenacetin
184.
Chromotrope and sulfuric acid is used to detect "acidic" chloroform extract containing
Amidopyrinum. Choose analytical signal of this reaction:
A. violet color *
B. red color
C. pink stains
D. blue-green color
E. reaction is not used
185.
Silver nitrate is used to detect "acidic" chloroform extract containing Amidopyrinum.
Choose analytical signal of this reaction:
A. purple *
B. red color
C. pink stains
D. blue-green color
E. reaction is not used
186.
Urine is painted in reddish-brown color. Which "drug" poison dose intoxication?
A. Amidopyrinum *
B. Antipyrine
C. Caffeine
D. Theophylline
E. Salicyl amide
187.
Which precipitation reaction is used in analysis of "acidic" chloroform extract of
Amidopyrinum?
A. With Dragendorff’s reagent *
B. With iron (III) chloride
C. Murexide reaction
D. Azo-dye formation
E. With nitrous acid
188.
Which precipitation reaction is used in analysis of "acidic" chloroform extract of analgin?
A. With Dragendorff’s reagent *
B. With iron (III) chloride
C. Murexide reaction
D. Azo-dye formation
E. With nitrous acid
189.
Which precipitation reaction is used in analysis of "acidic" chloroform extraction of
antipyrine?
A. With Dragendorff’s reagent *
B. With iron (III) chloride
C. Murexide reaction
D. Azo-dye formation
E. With nitrous acid
190.
Which reaction is used first in analysis of "acidic" chloroform extract on phenylbutazone?
A. With reagent Dragendorff’s *
B. With iron (III) chloride
C. murexide reaction
D. azo-dye formation
E. With nitrous acid
191.
Which reaction is used first in analysis of "acidic" chloroform extract on caffeine?
A. With reagent Dragendorff’s *
B. With iron (III) chloride
C. murexide reaction
D. azo-dye formation
E. With nitrous acid
192.
Which reaction is used first in analysis of "acidic" chloroform extract on theobromine?
A. With reagent Dragendorff’s *
B. With iron (III) chloride
C. murexide reaction
D. azo-dye formation
E. With nitrous acid
193.
Which reactions begin analysis of "acidic" chloroform extraction of theophylline?
A. With reagent Dragendorff’s *
B. With iron (III) chloride
C. murexide reaction
D. azo-dye formation
E. With nitrous acid
194.
Which is the main direction of the metabolism of salicylic acid?
A. reduction
B. hydroxylation *
C. decarboxylation
D. methylation
E. acetylation
195.
One of biotranformation salicylic acid directions are:
A. methylation
B. reduction
C. formation salicyluric acid *
D. decarboxylation
E. acetylation
196.
Murexide reaction gave positive result and negative reaction with izopropylamine in the
presence of cobalt salts. Which group of substances is necessary to detect?
A. caffeine, etaminal-sodium
B. theobromine, Barbamyl
C. theophylline, phenobarbital
D. Barbamyl, phenobarbital
E. caffeine, theobromine *
197.
There was a fatal poisoning by pyrazolone derivatives. To isolate this group of toxins is
used:
A. mineralization by mixture of sulfuric and nitric concentrated acids;
B. extraction by organic solvents;
C. water extraction;
D. extraction by water acidified by oxalic acid *
E. distillation with water vapor.
198.
Forensic toxicologist did color reaction at investigation of acid chloroform extract and
observes green color. Which substance does give nitrozocompound with sodium nitrite in an
acidic medium?
A. analgin;
B. amidopyrin;
C. antipyrine *
D. noxyron;
E. salicylic acid.
199.
Which compound does react of acidic chloroform extract with a solution of iron (III)
chloride?
A. Antipyrine *
B. Barbital.
C. Caffeine.
D. Diazepam.
E. Theophylline.
200.
Main way of caffeine metabolism is:
A. N-demethylation *
B. O-demethylation.
201.
202.
203.
204.
205.
206.
207.
208.
209.
C. S-demethylation.
D. N-methylation
E. reduction.
Which is one of the most toxic purine alkaloids?
A. theobromine
B. caffeine
C. caffeine and theobromine
D. equal in toxicity
E. theophylline *
Which reaction does not give theophylline in difference theobromine and caffeine:
A. with reagents Dragendorff’s
B. with reagents Zonnenstein’s
C. with reagents Scheibler’s
D. with Nessler's reagent *
E. murexide test
Which substance does not react with iron (III) chloride solution?
A. Amidopyrin
B. salicylic acid
C. caffeine *
D. antipyrine
E. analgin
Which substance does not give murexide reaction?
A. caffeine
B. analgin *
C. theobromine
D. barbamyl
E. phenobarbital
Which substance gives lignin test?
A. analgin *
B. antipyrine
C. caffeine
D. theobromine
E. theophylline
Urine has reddish-brown color. Which drug can be cause of poisoning?
A. aspirin
B. antipyrine
C. caffeine
D. theobromine
E. amidopyrin *
Which is product of phenacetine metabolism detected in extract from biological material?
A. paracetamol;
B. p-aminophenol *
C. p-phenatidin;
D. acetaldehyde;
E. not determined.
Which derivatives are developed on chromatogram by iron (III) chloride solution?
A. 1,4-benzodiazepines;
B. indole;
C. quinoline;
D. phenothiazine *
E. purine.
To identify which substances can not be used ultraviolet spectroscopy:
A. caffeine;
B. analgin;
C. theophylline;
D. atropine;
E. pachycarpine *
210.
Which derivatives are developed on chromatogram by mercury sulfate solution and
diphenylcarbazone?
A. 1,4-benzodiazepines;
B. salicylic acid;
C. barbituric acid *
D. phenothiazine;
E. purine.
211.
Which drug can be detected by reaction with iron (III) chloride solution:
A. Meconic acid *
B. Barbital.
C. Caffeine.
D. Diazepam.
E. Theophylline.
212.
There was a poisoning of opium alkaloids. As chemically prove that poisoning caused by
opium rather than morphine? You must detect …:
A. Hydrochloric acid
B. Tropic acid
C. Salicylic acid
D. Acetic acid
E. Meconic acid *
213.
Which substance does not react with iron (III) chloride solution?
A. meconic acid
B. salicylic acid
C. meconin *
D. antipyrine
E. analgin
214.
One method of barbiturates detection is TLC-screening. Choose developer of this group of
substances.
A. reagent Dragendorff’s;
B. diphenylamine;
C. sodium diethylditiocarbaminate;
D. diphenylcarbazone and mercury sulfate *
E. iodine vapor.
215.
Which derivatives are developed on chromatogram by iron (III) chloride solution?
A. salicylic acid, phenothiazine *
B. salicylic acid, purine;
C. salicylic acid, barbiturates;
D. purine, phenothiazine;
E. 1,4-benzodiazepines, phenothiazine.
216.
Which reagent is not used for detection of narcotine?
A. Mandelin’s
B. Marqui’s
C. Frohdes’s
D. Erdmann’s
E. Nessler’s *
217.
A few drops of concentrated sulfuric acid are added to dry residue after evaporation of
"acidic" chloroform extract. It observed the appearance of green color. Which substance does
give this reaction?
A. meconic acid
B. meconin *
C. salicylic acid
D. analgin
E. caffeine
218.
To identify which substances can not be used ultraviolet spectroscopy:
A. caffeine;
B.
C.
D.
E.
analgin;
theophylline;
atropine;
coniine *
219.
Choose analytical effect, which is observed in reaction of narcotine with Mandelin’s
reagent?
A. red color, which becomes brown and then violet *
B. violet, which turns into green, then yellow
C. blue-green, at heating becomes cherry-red
D. red color, which becomes violet-red
E. red precipitate
220.
Choose analytical effect, which is observed in reaction of narcotine with Marquis's
reagent?
A. red color, which becomes brown and then violet
B. violet, which turns into green, then yellow *
C. blue-green, at heating becomes cherry-red
D. red color, which becomes violet-red
E. red precipitate
221.
Choose analytical effect, which is observed in reaction of narcotine with Frohdes’s reagent?
A. red color, which becomes brown and then violet
B. violet, which turns into green, then yellow
C. blue-green, at heating becomes cherry-red *
D. red color, which becomes violet-red
E. red precipitate
222.
Choose analytical effect, which is observed in reaction of narcotine with Erdmann’s
reagent?
A. red color, which becomes brown and then violet
B. violet, which turns into green, then yellow
C. blue-green, which when heated becomes cherry-red
D. red color *
E. red precipitate
223.
A few drops of concentrated sulfuric acid are added to dry residue after evaporation of
"acidic" chloroform extract. It observed the appearance of green color. Which substance does
give this reaction?
A. Meconin *
B. narcotine
C. caffeine
D. phenacetin
E. aspirin
224.
A few drops of concentrated sulfuric acid are added to dry residue after evaporation of
"acidic" chloroform extract. It observed the appearance of yellow-green color. Which substance
does give this reaction?
A. meconin
B. narcotine *
C. caffeine
D. phenacetin
E. aspirin
225.
Choose method of meconin isolation from biological material?
A. infusion with ethanol in the presence of suluric acid followed by extraction of benzene *
B. infusion with ethanol in the presence of suluric acid followed by extraction of ether
C. infusion with ethanol in the presence of hydrochloric acid followed by extraction of benzene
D. infusion with ethanol in the presence of hydrochloric acid followed by addition of magnesium
oxide
E. Vasilyeva’s method
226.
Choose method of meconic acid isolation from biological material?
A. infusion with ethanol in the presence of suluric acid followed by extraction of benzene
B. infusion with ethanol in the presence of suluric acid followed by extraction of ether
C. infusion with ethanol in the presence of hydrochloric acid followed by extraction of benzene
D. infusion with ethanol in the presence of hydrochloric acid followed by addition of magnesium
oxide *
E. Vasilyeva’s method
227.
Which substances (derivatives of salicylic acid) is soluble in water?
A. sodium salicylate *
B. metamizole
C. methylsalicylate
D. salicylamid
E. phenacetin
228.
Which substances (derivatives of salicylic acid) is a liquid?
A. sodium salicylate
B. Metamizole
C. methylsalicylate *
D. salicylamid
E. phenacetin
229.
Methylsalicylate is metabolized in the body by:
A. Hydrolysis *
B. electrolysis
C. conjugation with glycine
D. methylation
E. acetylation
230.
Which derivative of salicylic acid in the body isn’t metabolized and excreted unchanged?
A. sodium salicylate
B. metamizole
C. methylsalicylate
D. salicylamid *
E. phenacetin
231.
Salicylic acid is metabolized by ... (... phase of metabolism):
A. hydroxylation (first) *
B. hydroxylation (second)
C. conjugation with glycine (first)
D. conjugation with glucuronic acid (first)
E. oxidation (second)
232.
Salicylic acid is metabolized by ... (... phase of metabolism):
A. hydrolysis (first)
B. hydroxylation (second)
C. conjugation with glycine (second) *
D. conjugation with glucuronic acid (first)
E. oxidation (second)
233.
Salicylic acid is metabolized by ... (... phase of metabolism):
A. hydrolysis (first)
B. hydroxylation (second)
C. conjugation with glycine (first)
D. conjugation with glucuronic acid (second) *
E. oxidation (second)
234.
Preliminary reaction for detection of salicylic acid in the "acidic" chloroform extract is
reaction with?
A. bromine water *
B. iron (III) chloride
C. formation methylsalicylate
D. Dragendorff’s reagent
E. Scheibler’s reagent
235.
Which reaction is used for detection of acetylsalicylic acid in the extract?
A. hydrolysis followed by esterification *
B.
C.
D.
E.
hydrolysis followed by oxidation
hydrolysis
esterification
precipitaion reaction
236.
Which alkaloid does not contain multiple (double) bonds in their chemical structure?
A. Caffeine
B. Anabasine
C. Pachycarpine *
D. Cocaine
E. Reserpine
237.
What functional group is not in the chemical structure of quinine?
A. hydroxyl
B. vinyl
C. CH2
D. Carboxyl *
E. methoxy238.
Infusion with acidified ethanol or acidified water is used for isolation of alkaloids from
biological material. Which alkaloids can you isolate by distillation with water vapor?
A. Morphine
B. Anabasine *
C. Strychnine
D. Cocaine
E. Quinine
239.
There was fatal poisoning of alkaloids. Kramarenko’s method is used for their isolation.
What is the purpose of ammonium sulfate addition?
A. for salting - out *
B. infusion
C. centrifugation
D. ether extraction
E. chloroform extraction
240.
Choose effectiv method for isolation of alkaloids from biological material?
A. Vasilyeva
B. Stas-Otto’s
C. Kramarenko’s *
D. Kartashov’s
E. Valov’s
241.
Pyridine and piperidine derivatives are in alkaline chloroform extract alkaloids. These
substances give the most characteristic crystals with … reagent.
A. Dragendorff’s *
B. Mayer
C. Marqui’s
D. Zonnenstein’s
E. Marme’s
242.
Forensic toxicologist observed blue fluorescence in the UV spectrum in extract from
biological material after adding sulfuric acid solution. Which substance can be present in the
extract?
A. Quinine *
B. Atropine
C. Scopolamine
D. Nicotine
E. Cocaine
243.
Cocaine was detected in extract. Choose the most characteristic refction on cocaine.
A. Vitali-Morena
B. with picric acid
C. with Reinecke salt
D. with potassium permanganate *
E. with Dragendorff’s reagent
244.
There was cocaine poisoning. Cocaine is derivatives of ...:
A. Quinoline
B. Tropane *
C. Isoquinoline
D. Indole
E. Pyridine
245.
The reaction Vitali-Morena is used to detect atropine, scopolamine. It is based on reaction
of a substance with nitric acid with the formation of yellow color. Which substance does form?
A. Atropine
B. Tropin
C. Scopolamine
D. Scopine
E. Tropic acid *
246.
Which heterocycle is in chemical structure of quinine?
A. Quinoline *
B. Isoquinoline
C. Indoles
D. Pyridine
E. Purine
247.
Which alkaloid does not apply to derivatives of pyridine and piperidine?
A. Anabasine
B. Nicotine
C. Pachycarpine
D. Strychnine *
E. Arecolinee
248.
Infusion with acidified ethanol or acidified water is used for isolation of alkaloids from
biological material. Which alkaloids can you isolate by distillation with water vapor?
A. Morphine
B. Nicotine *
C. Strychnine
D. Cocaine
E. Quinine
249.
There was a quinine poisoning. Which method is used for isolaton of quinine at directional
analysis?
A. Kramarenko’s *
B. Vasilyeva
C. Stas-Otto’s
D. Izotov’s
E. Valov’s
250.
Kramarenko’s method is methods of isolation some "drug" poisons. Which acid is used for
isolation poisons by Kramarenko’s method?
A. oxalic
B. tartaric
C. sulfuric
D. acetic
E. hydrochloridic
251.
Forensic toxicologist performed preliminary reaction with presipitation reagents. Which
group of alkaloids does give specific reaction with Dragendorff’s reagent?
A. Tropane
B. Quinoline
C. Isoquinoline
D. pyridine and piperidine *
E. indole
252.
Forensic toxicologist got red-vilet crystals (rectangular plates) with 1 % potassium
permanganate solution. Which alkaloid does give this typical reaction with potassium
permanganate solution?
A. Morphine
B. Pachycarpine
C. Quinine
D. Cocaine *
E. Strychnine
253.
Presipitation reagent is used for qualitative detection of cocaine. Which compound does
form the most characteristic crystals with cocaine?
A. Dragendorff’s reagents
B. potassium permanganate *
C. bromine water
D. picric acid
E. Zonnenstein’s reagent
254.
There was poisoning by tropane alkaloids. Which reagent may use for difference cocaine
from atropine and scopolamine?
A. Vitali-Morena
B. with Reinecke salt
C. n-dimethylaminobenzaldehyde
D. picric acid
E. potassium permanganate *
255.
Which reaction does not give nicotine unlike anabasine?
A. with Dragendorff’s reagent
B. with Reinecke salt
C. with vanillin and concentrated hydrochloric acid
D. with hydrogen peroxide and sulfuric acid
E. with picric acid *
256.
Choose microcrystaloscopic reaction for detection of ephedrine in the "alkaline"
chloroform extract.
A. with Dragendorff’s reagent *
B. with Bushard’s reagent
C. this reaction does not used in the analysis
D. with Reinecke salt
E. with copper sulfate
257.
Choose analytical signal of microcrystaloscopic reaction ephedrine with reagents
Dragendorff’s.
A. Needle crystals *
B. Crystals in the form of letters K and X
C. Prismatic crystals
D. Cubic crystals
E. Its use as a general precipitation reaction
258.
Copper sulfate and sodium hydroxide solution is added to solution. Blue color of water
layer is observed, and ether is violet. Which substance was caused by poisoning?
A. Ephedrine *
B. Anabasine
C. Caffeine
D. Coniine
E. Morphine
259.
A drop of investigated solution is poured into microtube, acidified by acetic acid, added a
drop of 5 % copper sulfate solution, and then ammonia to alkaline reaction and 2 drops of a
mixture of carbon disulfide and benzene. Yellow color of the benzene layer is observed. Which
substance was caused by poisoning?
A. Ephedrine *
B. Anabasine
C. Caffeine
D. Aconitine
E. Morphine
260.
A drop of investigated solution is poured into microtube, acidified by acetic acid, added a
drop of 5 % copper sulfate solution, and then ammonia to alkaline reaction and 2 drops of a
mixture of carbon disulfide and benzene. Yellow color of the benzene layer is observed. Which
substance was caused by poisoning?
A. Coniine *
B. Anabasine
C. Caffeine
D. Aconitine
E. Morphine
261.
Which reaction isn’t used for detection of ephedrine in the "alkaline" chloroform extract?
A. Formation sublimate *
B. With copper sulfate solution
C. With copper sulphate solution and carbon disulfide in benzene
D. With 2.4-dinitrochlorbenzene
E. With Dragendorff’s reagent
262.
Copper sulfate solution, ammonia and carbon disulfide in benzene is added to a solution.
Yellow color of the benzene layer is observed. Which substance was caused by poisoning?
A. Coniine or ephedrine *
B. Anabasine or nicotine
C. Caffeine or anabadust
D. Aconitine or scopolamine
E. Morphine or codeine
263.
Reaction with 2,4-dinitrochlorbenzene is used for detection of ephedrine in the "alkaline"
chloroform extract. Choose analytical signal of this reaction.
A. Yellow-brown *
B. Red color
C. Blue color
D. Purple
E. Reddish-brown crystals
264.
Ephedrine is metabolized by ... (... phase biotransformation):
A. N-demethylation, the first *
B. N-demethylation, the second
C. Not metabolized
D. Oxidation, the first
E. Reduction, the second
265.
Ephedrine is metabolized by …. in the body ... and formed ...:
A. N-demethylation, phenylpropanolamine *
B. N-demethylation, phenylpropylamine
C. Not metabolized
D. Oxidation, hemoquinic acid
E. Reduction, ephedrone
266.
Choose a product of ephedrine metabolism in the body:
A. Phenylpropanolamine *
B. Phenylpropylamine
C. Phenol
D. Propylamine
E. Not metabolized
267.
This alkaloid is used in ophthalmology, and when entering in the body at high doses can
cause poisoning. Which is an alkaloid?
A. Ephedrine *
B. Scopolamine
C. Anabasine
D. Papaverine
E. Nicotine
268.
This alkaloid is used in ophthalmology, and when entering in the body at high doses can
cause poisoning. Which is an alkaloid?
A. Atropine *
B. Scopolamine
C. Anabasine
D. Papaverine
E. Nicotine
269.
This alkaloid is used in ophthalmology, and when entering in the body at high doses can
cause poisoning. Which is an alkaloid?
A. Arecoline *
B. Scopolamine
C. Anabasine
D. Papaverine
E. Nicotine
270.
This alkaloid is used in the treatment of asthma and when entering in the body at high
doses can cause poisoning. What is an alkaloid?
A. Ephedrine *
B. Scopolamine
C. Anabasine
D. Morphine
E. Nicotine
271.
Dragendorff’s reagent isn’t used as microcrystaloscopic reagent for identification alkaloid.
Choose it.
A. Scopolamine *
B. Ephedrine
C. Anabasine
D. Arecoline
E. Nicotine
272.
Dragendorff’s reagent isn’t used as microcrystaloscopic reagent for identification alkaloid.
Choose it.
A. Atropine *
B. Ephedrine
C. Anabasine
D. Arecoline
E. Nicotine
273.
Dragendorff’s reagent isn’t used as microcrystaloscopic reagent for identification alkaloid.
Choose it.
A. Quinine *
B. Ephedrine
C. Anabasine
D. Arecoline
E. Nicotine
274.
Dragendorff’s reagent isn’t used as microcrystaloscopic reagent for identification alkaloid.
Choose it.
A. Pachycarpine *
B. Ephedrine
C. Anabasine
D. Arecoline
E. Nicotine
275.
Dragendorff’s reagent isn’t used as microcrystaloscopic reagent for identification alkaloid.
Choose it.
A. Cocaine *
B. Ephedrine
C. Anabasine
D. Arecoline
E. Nicotine
276.
Dragendorff’s reagent is used
Choose them.
A. Ephedrine and nicotine *
B. Scopolamine and atropine
C. Anabasine and pachycarpine
D. Arecoline and cocaine
E. Nicotine and quinine
277.
Dragendorff’s reagent is used
Choose them.
A. Ephedrine and anabasine *
B. Scopolamine and atropine
C. Anabasine and pachycarpine
D. Arecoline and cocaine
E. Nicotine and Quinine
278.
Dragendorff’s reagent is used
Choose them.
A. Ephedrine and arecoline *
B. Scopolamine and atropine
C. Anabasine and pachycarpine
D. Arecoline and cocaine
E. Nicotine and Quinine
279.
Dragendorff’s reagent is used
Choose them.
A. Ephedrine and coniine *
B. Scopolamine and atropine
C. Anabasine and pachycarpine
D. Arecoline and cocaine
E. Nicotine and quinine
280.
Dragendorff’s reagent is used
Choose them.
A. Anabasine and nicotine *
B. Scopolamine and atropine
C. Anabasine and pachycarpine
D. Arecoline and cocaine
E. Nicotine and quinine
281.
Dragendorff’s reagent is used
Choose them.
A. Anabasine and arecoline *
B. Scopolamine and atropine
C. Anabasine and pachycarpine
D. Arecoline and cocaine
E. Nicotine and quinine
282.
Dragendorff’s reagent is used
Choose them.
A. Anabasine and coniine *
B. Scopolamine and atropine
C. Anabasine and pachycarpine
D. Arecoline and cocaine
E. Nicotine and quinine
283.
Dragendorff’s reagent is used
Choose them.
A. Nicotine and arecoline *
B. Scopolamine and atropine
C. Anabasine and pachycarpine
D. Arecoline and cocaine
E. Nicotine and quinine
as microcrystaloscopic reagent for identification alkaloids.
as microcrystaloscopic reagent for identification alkaloids.
as microcrystaloscopic reagent for identification alkaloids.
as microcrystaloscopic reagent for identification alkaloids.
as microcrystaloscopic reagent for identification alkaloids.
as microcrystaloscopic reagent for identification alkaloids.
as microcrystaloscopic reagent for identification alkaloids.
as microcrystaloscopic reagent for identification alkaloids.
284.
Dragendorff’s reagent is used as microcrystaloscopic reagent for identification alkaloids.
Choose them.
A. Nicotine and coniine *
B. Scopolamine and atropine
C. Anabasine and pachycarpine
D. Arecoline and cocaine
E. Nicotine and quinine
285.
Dragendorff’s reagent is used as microcrystaloscopic reagent for identification alkaloids.
Choose them.
A. Coniine and arecoline *
B. Scopolamine and atropine
C. Anabasine and pachycarpine
D. Arecoline and cocaine
E. Nicotine and quinine
286.
Formation of needle-like crystals is observed at microcrystaloscopic investigation of
"alkaline" chloroform extract with Dragendorff’s reagent. What is an alkaloid?
A. Anabasine *
B. Scopolamine
C. Pachycarpine
D. Arecoline
E. Nicotine
287.
Formation of needle-like crystals is observed at microcrystaloscopic investigation of
"alkaline" chloroform extract with Dragendorff’s reagent. What is an alkaloid?
A. Ephedrine *
B. Scopolamine
C. Pachycarpine
D. Arecoline
E. Nicotine
288.
Formation of needle-like crystals is observed at microcrystaloscopic investigation of
"alkaline" chloroform extract with Dragendorff’s reagent. What is an alkaloid?
A. Anabasine or ephedrine *
B. Scopolamine or atropine
C. Anabasine or pachycarpine
D. Arecoline or cocaine
E. Nicotine or quinine
289.
Formation of diamonds is observed at microcrystaloscopic investigation of "alkaline"
chloroform extract with Dragendorff’s reagent. What is an alkaloid?
A. Arecoline *
B. Anabasine
C. Scopolamine
D. Pachycarpine
E. Nicotine
290.
Formation of diamonds is observed at microcrystaloscopic investigation of "alkaline"
chloroform extract with Dragendorff’s reagent. What is an alkaloid?
A. Coniine *
B. Ephedrine
C. Scopolamine
D. Pachycarpine
E. Nicotine
291.
Formation of diamonds is observed at microcrystaloscopic investigation of "alkaline"
chloroform extract with Dragendorff’s reagent. What are alkaloids?
A. Arecoline or coniine *
B. Anabasine or ephedrine
C. Scopolamine or anabasine
D. Anabasine or pachycarpine
E. Nicotine or quinine
292.
Reinecke salt is used as microcrystaloscopic reagent for identification alkaloids. Choose
them.
A. Anabasine or nicotine *
B. Arecoline or nicotine
C. Pachycarpine or nicotine
D. Ephedrine or coniine
E. Codeine or coniine
293.
Water, perhydrol, concentrated sulfuric acid is added to the dry residue (after evaporation
of "alkaline" chloroform extract). Chocolate brown color is observed. What is an alkaloid?
A. Nicotine or anabasine *
B. Arecoline or nicotine
C. Pachycarpine or atropine
D. Atropine or scopolamine
E. Quinine or ephedrine
294.
Water, perhydrol, concentrated sulfuric acid is added to the dry residue (after evaporation
of "alkaline" chloroform extract). Red color is observed. What is an alkaloid?
A. Nicotine or anabasine *
B. Arecoline or nicotine
C. Pachycarpine or atropine
D. Atropine or scopolamine
E. Quinine or ephedrine
295.
Vanillin crystals and concentrated hydrochloric acid is added to the dry residue (after
evaporation of "alkaline" chloroform extract). Cherry-red color is observed. What is an alkaloid?
A. Nicotine or anabasine *
B. Arecoline or nicotine
C. Pachycarpine or atropine
D. Atropine or scopolamine
E. Quinine or ephedrine
296.
Vanillin crystals and concentrated hydrochloric acid is added to the dry residue (after
evaporation of "alkaline" chloroform extract). Red color is observed. What is an alkaloid?
A. Nicotine or anabasine *
B. Arecoline or nicotine
C. Pachycarpine or atropine
D. Atropine or scopolamine
E. Quinine or ephedrine
297.
Formation of crystals in the form of letters of X is observed at microcrystaloscopic
investigation of "alkaline" chloroform extract with Dragendorff’s reagent. What is an alkaloid?
A. Nicotine *
B. Coniine
C. Ephedrine
D. Scopolamine
E. Pachycarpine
298.
Physical properties of nicotine are:
A. Oily liquid, soluble in water and organic solvents *
B. Oily liquid, insoluble in water and organic solvents
C. Oily liquid, insoluble in water but soluble in organic solvents
D. Crystalline substance, soluble in water and organic solvents
E. Crystalline substance, insoluble in water and organic solvents
299.
Nicotine is used:
A. In agriculture as pesticide, medicine for the treatment of nicotine addiction *
B. Only in agriculture as pesticide
C. Only for treatment of nicotine addiction
D. As it is very toxic, it does not used
E. As the anesthetic
300.
Choose microcrystaloscopic reaction to detect nicotine in the "alkaline" chloroform
extract.
With Dragendorff’s reagent *
With Bushard’s reagent
With cobalt thiocyanate
With formaldehyde in the presence of concentrated nitric acid
With n-dimethylaminobenzaldehyde
301.
Choose microcrystaloscopic reaction to detect nicotine in the "alkaline" chloroform
extract.
A. With Reinecke salt *
B. With Bushard’s reagent
C. With cobalt thiocyanate
D. With formaldehyde in the presence of concentrated nitric acid
E. With n-dimethylaminobenzaldehyde
302.
Choose microcrystaloscopic reaction to detect nicotine in the "alkaline" chloroform
extract.
A. With iodine in diethyl ether *
B. With Bushard’s reagent
C. With thiocyanate cobalt
D. With formaldehyde in the presence of conc. nitrate acid
E. With n-dimethylaminobenzaldehyde
303.
Choose colored reaction to detect nicotine in the "alkaline" chloroform extract.
A. With formaldehyde in the presence of concentrated nitric acid *
B. With iodine in diethyl ether
C. With Bushard’s reagent
D. With thiocyanate cobalt
E. With Reinecke salt
304.
Choose colored reaction to detect nicotine in the "alkaline" chloroform extract.
A. With n-dimethylaminobenzaldehyde *
B. With iodine in diethyl ether
C. With Bushard’s reagent
D. With thiocyanate cobalt
E. Sublimate formation
305.
Choose colored reaction to detect nicotine in the "alkaline" chloroform extract.
A. With perhydrol in the presence of conc. sulfuric acid *
B. With iodine in diethyl ether
C. With Bushard’s reagent
D. With cobalt thiocyanate
E. With perhydrol in the presence of conc. hydrochloric acid
306.
Choose colored reaction to detect nicotine in the "alkaline" chloroform extract.
A. With vanillin in the presence of conc. hydrochloric acid *
B. With vanillin in the presence of conc. sulfuric acid
C. With iodine in diethyl ether
D. With perhydrol in the presence of conc. hydrochloric acid
E. With vanillin in the presence of conc. hydrobromic acid
307.
Formation of prismatic crystals is observed at microcrystaloscopic investigation of
"alkaline" chloroform extract with Reinecke salt. What is an alkaloid?
A. Nicotine *
B. Anabasine
C. Pachycarpine
D. Ephedrine
E. Codeine
308.
Reinecke salt is used as microcrystaloscopic reagent for identification alkaloids. Choose it.
A. Nicotine *
B. Arecoline
C. Pachycarpine
D. Ephedrine
E. Codeine
A.
B.
C.
D.
E.
309.
Choose analytical signal of reaction p-dimethylaminobenzaldehyde with "alkaline"
chloroform extract contained nicotine:
A. Pink color, which becomes violet *
B. Red color, which becomes cherry-red, then violet
C. Yellow color, which becomes blue
D. Red or chocolate brown
E. Red or pink color
310.
Choose analytical signal of reaction perhydrol in the presence of concentrated sulfuric acid
with "alkaline" chloroform extract contained nicotine.
A. Red or chocolate brown *
B. Pink color, which becomes violet
C. Red color, which becomes cherry-red, then violet
D. Yellow color, which becomes blue
E. Red or pink color
311.
Choose analytical signal of reaction vanillin in the presence of conc. hydrochloric acid with
"alkaline" chloroform extract contained nicotine.
A. Red or cherry-red color *
B. Red or chocolate brown
C. Pink color, which becomes violet
D. Red color, which becomes cherry-red, then violet
E. Yellow color, which becomes blue
312.
Water, perhydrol, concentrated sulfuric acid is added to the dry residue (after evaporation
of "alkaline" chloroform extract). Chocolate brown color is observed. What is an alkaloid?
A. Nicotine *
B. Arecoline
C. Pachycarpine
D. Atropine
E. Quinine
313.
Water, perhydrol, concentrated sulfuric acid is added to the dry residue (after evaporation
of "alkaline" chloroform extract). Red color is observed. What is an alkaloid?
A. Nicotine *
B. Arecoline
C. Pachycarpine
D. Atropine
E. Quinine
314.
Vanillin crystals and concentrated hydrochloric acid is added to the dry residue (after
evaporation of "alkaline" chloroform extract). Cherry-red color is observed. What is an alkaloid?
A. Nicotine *
B. Arecoline
C. Pachycarpine
D. Atropine
E. Quinine
315.
Vanillin crystals and concentrated hydrochloric acid is added to the dry residue (after
evaporation of "alkaline" chloroform extract). Red color is observed. What is an alkaloid?
A. Nicotine *
B. Arecoline
C. Pachycarpine
D. Atropine
E. Quinine
316.
Formaldehyde in the presence of concentrated nitric acid is added to the dry residue (after
evaporation of "alkaline" chloroform extract). Which alkaloid does react with this reagent?
A. Nicotine *
B. Arecoline
C. Pachycarpine
D. Atropine
E. Quinine
317.
Choose analytical signal of reaction of formaldehyde with "alkaline" chloroform extract
contined nicotine.
A. Red or pink color *
B. Pink color, which becomes violet
C. Red color, which becomes cherry-red, then violet
D. Yellow color, which becomes blue
E. Red or chocolate brown
318.
Which alkaloid is used as a pesticide?
A. Nicotine *
B. Apomorphine
C. Pachycarpine
D. Atropine
E. Quinine
319.
Which alkaloids are used as a pesticide?
A. Nicotine or anabasine *
B. Apomorphine or nicotine
C. Pachycarpine or coniine
D. Atropine or cocaine
E. Quinine or scopolamine
320.
Feature of nicotine isolation from biological material by Kramarenko’s method is:
A. Saturation of "alkaline" chloroform extract by hidrogenchloride *
B. No feature
C. It was not isolated by this method
D. Ammonium sulfate for salting-out
E. Extraction by chloroform from acidic medium
321.
Which method can be used as for anabasine isolation from biological material and as to
purification the "alkaline" chloroform extract?
A. * Distillation
B. Extraction
C. Dialysis
D. Kramarenko’s method
E. Vasilyeva’s method
322.
Nicotine is metabolized by ... (... phase biotransformation):
A. N-demethylation, and I phase of biotransformation *
B. N-demethylation, II phase of biotransformation
C. N-methylation, I phase of biotransformation
D. Oxidation, II phase of biotransformation
E. Hydrolysis, and phase of biotransformation
323.
Nicotine is metabolized by ... (... phase biotransformation):
A. N-methylation, I phase of biotransformation
B. N-demethylation, II phase of biotransformation
C. N-methylation, I phase of biotransformation
D. Oxidation, I phase of biotransformation *
E. Hydrolysis, I phase of biotransformation
324.
Nicotine is metabolized by ... (... phase biotransformation):
A. N-methylation, II phase of biotransformation *
B. N-demethylation, II phase of biotransformation
C. N-methylation, I phase of biotransformation
D. Oxidation, II phase of biotransformation
E. Hydrolysis, II phase of biotransformation
325.
Choose the name of product of nicotine metabolism at its oxidation:
A. Cotinine *
B. Conitine
C. Nicotinine
D. No oxidation
E. Tropane
326.
Formation of prismatic crystals is observed at microcrystaloscopic investigation of
"alkaline" chloroform extract with Reinecke salt. What is an alkaloid?
A. Nicotine *
B. Atropine
C. Anabasine
D. Ephedrine
E. Codeine
327.
Nicotine in the body is metabolized by hydrolysis. Choose the name of metabolism product.
A. * Do not hydrolyze
B. Cotinine
C. Conitine
D. Nicotinine
E. Tropane
328.
Physical properties arecoline are:
A. Oily liquid, soluble in water and organic solvents *
B. Oily liquid, insoluble in water and organic solvents
C. Oily liquid, insoluble in water but soluble in organic solvents
D. Crystalline substance, soluble in water and organic solvents
E. Crystalline substance, insoluble in water and organic solvents
329.
Feature of arecoline isolation from biological material by Kramarenko’s method is:
A. Saturation of "alkaline" chloroform extract by hidrogenchloride *
B. No feature
C. It was not isolated by this method
D. Ammonium sulfate for salting-out
E. Extraction by chloroform from acidic medium
330.
Which method can be used as for arecoline isolation from biological material and as to
purification the "alkaline" chloroform extract?
A. * Distillation
B. Extraction
C. Dialysis
D. Kramarenko’s method
E. Vasilyeva’s method
331.
Which alkaloid is used in veterinary medicine, and it causes of poisoning at entering in
organism?
A. Arecoline *
B. Nicotine
C. Pachycarpine
D. Cocaine
E. Quinine
332.
Which alkaloid is used in veterinary medicine as a purgative and anthelmintic?
A. Arecoline *
B. Anabasine
C. Pachycarpine
D. Cocaine
E. Quinine
333.
Salivation increases, blood pressure decreases, miosis was obserbed at poisoning. Which
poison may be detected in urine?
A. Arecoline *
B. Anabasine
C. Pachycarpine
D. Cocaine
E. Quinine
334.
Choose a color reaction to detect arecoline in "alkaline" chloroform extract?
A. This reaction is absent *
B. With Dragendorff’s reagent
C. With Reinecke salt
D. With Frohdes’s reagent
E. With formaldehyde
335.
Choose microcrystaloscopic reaction to detect arecoline in the "alkaline" chloroform
extract.
A. Dragendorff’s reagent *
B. This reaction is not
C. Reinecke salt
D. Frohdes’s reagent
E. Formaldehyde
336.
Choose microcrystaloscopic reaction to detect arecoline in the "alkaline" chloroform
extract.
A. Picric acid *
B. This reaction is not
C. Reinecke salt
D. Frohdes’s reagent
E. Formaldehyde
337.
Dark-green prismatic crystals are observed at microcrystaloscopic investigation of
"alkaline" chloroform extract with picric acid. What is alkaloid?
A. Arecoline *
B. Anabasine
C. Nicotine
D. Ephedrine
E. Codeine
338.
Formation of diamonds is observed at microcrystaloscopic investigation of "alkaline"
chloroform extract with Dragendorff’s reagent. What is alkaloid?
A. Arecoline *
B. Anabasine
C. Nicotine
D. Ephedrine
E. Codeine
339.
Picric acid is used as microcrystaloscopic reagent for identification alkaloids in the
"alkaline" chloroform extract. Choose them.
A. Anabasine and pachycarpine *
B. Pachycarpine and nicotine
C. Atropine and scopolamine
D. Arecoline and quinine
E. This reagent is used only as precipitation reagent.
340.
Picric acid is used as microcrystaloscopic reagent for identification alkaloids in the
"alkaline" chloroform extract. Choose them.
A. Anabasine and arecoline *
B. Pachycarpine and nicotine
C. Atropine and scopolamine
D. Arecoline and quinine
E. This reagent is used only as precipitation reagent.
341.
Picric acid is used as microcrystaloscopic reagent for identification alkaloids in the
"alkaline" chloroform extract. Choose them.
A. Anabasine and atropine *
B. Pachycarpine and nicotine
C. Atropine and scopolamine
D. Arecoline and quinine
E. This reagent is used only as precipitation reagent
342.
Picric acid is used as microcrystaloscopic reagent for identification alkaloids in the
"alkaline" chloroform extract. Choose them.
A. Arecoline and pachycarpine *
B. Pachycarpine and nicotine
C. Atropine and scopolamine
D. Arecoline and quinine
E. This reagent is used only as precipitation reagent
343.
Picric acid is used as microcrystaloscopic reagent for identification alkaloids in the
"alkaline" chloroform extract. Choose them.
A. Arecoline and atropine *
B. Pachycarpine and nicotine
C. Atropine and scopolamine
D. Arecoline and quinine
E. This reagent is used only as precipitation reagent
344.
Picric acid is used as microcrystaloscopic reagent for identification alkaloids in the
"alkaline" chloroform extract. Choose them.
A. Atropine and pachycarpine *
B. Pachycarpine and nicotine
C. Atropine and scopolamine
D. Arecoline and quinine
E. This reagent is used only as precipitation reagent
345.
Physical properties anabasine are:
A. Oily liquid, soluble in water and organic solvents *
B. Oily liquid, insoluble in water and organic solvents
C. Oily liquid, insoluble in water but soluble in organic solvents
D. Crystalline substance, soluble in water and organic solvents
E. Crystalline substance, insoluble in water and organic solvents
346.
Choose microcrystaloscopic reaction to detect anabasine in "alkaline" chloroform extract.
A. Picric acid *
B. This reaction is not
C. Bushard’s reagent
D. Frohdes’s reagent
E. Formaldehyde
347.
Stimulation of central nervous system, tachypnea, blood pressure raises, and loss of hair is
observed poisoning. Which poison may be detected in urine?
A. Anabasine *
B. Arecoline
C. Pachycarpine
D. Cocaine
E. Quinine
348.
Which alkaloid is used in veterinary medicine to exterminate lice of animals, for the
treatment of ringworm and scabies?
A. Anabasine *
B. Arecoline
C. Pachycarpine
D. Cocaine
E. Quinine
349.
Which alkaloid is used in veterinary medicineand can be cause of poisoning?
A. Anabasine *
B. Nicotine
C. Pachycarpine
D. Cocaine
E. Quinine
350.
Formation of needle-like crystals is observed at microcrystaloscopic investigation of
"alkaline" chloroform extract with Reinecke salt. What is an alkaloid?
A. Anabasine *
B. Nicotine
C. Pachycarpine
D. Ephedrine
E. Codeine
351.
Which poison does give microcrystaloscopic reaction with Reinecke salt?
A.
B.
C.
D.
E.
Anabasine *
Arecoline
Pachycarpine
Ephedrine
Codeine
352.
Choose analytical signal of reaction of perhydrol in the presence of concentrated sulfuric
acid with "alkaline" chloroform extract contained anabasine.
A. Red or chocolate brown *
B. Pink color, which becomes violet
C. Red color, which becomes cherry-red, then violet
D. Yellow color, which becomes blue
E. Red or pink color
353.
Choose analytical signal of reaction of vanillin in the presence of concentrated hydrochloric
acid with "alkaline" chloroform extract contained anabasine.
A. Red or cherry-red color *
B. Red or chocolate brown
C. Pink color, which becomes violet
D. Red color, which becomes cherry-red, then violet
E. Yellow color, which becomes blue
354.
Water, perhydrol, concentrated sulfuric acid is added to the dry residue (after evaporation
of "alkaline" chloroform extract). Chocolate brown color is observed. What is an alkaloid?
A. Anabasine *
B. Arecoline
C. Pachycarpine
D. Atropine
E. Quinine
355.
Water, perhydrol, concentrated sulfuric acid is added to the dry residue (after evaporation
of "alkaline" chloroform extract). Red color is observed. What is an alkaloid?
A. Anabasine *
B. Arecoline
C. Pachycarpine
D. Atropine
E. Quinine
356.
Vanillin crystals and concentrated hydrochloric acid is added to the dry residue (after
evaporation of "alkaline" chloroform extract). Cherry-red color is observed. What is an alkaloid?
A. Anabasine *
B. Arecoline
C. Pachycarpine
D. Atropine
E. Quinine
357.
Vanillin crystals and concentrated hydrochloric acid is added to the dry residue (after
evaporation of "alkaline" chloroform extract). Red color is observed. What is an alkaloid?
A. Anabasine *
B. Arecoline
C. Pachycarpine
D. Atropine
E. Quinine
358.
Which alkaloid is used as a pesticide?
A. Anabasine *
B. Aconitine
C. Pachycarpine
D. Atropine
E. Quinine
359.
Feature of anabasine isolation from biological material by Kramarenko’s method is:
A. Saturation of "alkaline" chloroform extract by hidrogenchloride *
B. No feature
C. It was not isolated by this method
D. Ammonium sulfate for salting-out
E. Extraction by chloroform from acidic medium
360.
Which method can be used as for anabasine isolation from biological material and as to
purification the "alkaline" chloroform extract?
A. * Distillation
B. Extraction
C. Dialysis
D. Kramarenko’s method
E. Vasilyeva’s method
361.
Formation of needle-like crystals is observed at microcrystaloscopic investigation of
"alkaline" chloroform extract with Reinecke salt. What is an alkaloid?
A. Anabasine *
B. Atropine
C. Nicotine
D. Ephedrine
E. Codeine
362.
Formation of yellow crystals is observed at microcrystaloscopic investigation of "alkaline"
chloroform extract with picric acid. What is an alkaloid?
A. Anabasine *
B. Arecoline
C. Nicotine
D. Ephedrine
E. Codeine
363.
Anabasine as anabasine hydrochloride is used:
A. In medicine for facilitate smoking disaccustoming *
B. In veterinary medicine as an anthelmintic agent
C. In agriculture as a growth promoter
D. In ophthalmology
E. In medicine for the treatment of gastric ulcer
364.
Anabasine as anabadust is used:
A. In agriculture as herbicide *
B. In medicine for the treatment of nicotine addiction
C. In veterinary medicine as an anthelmintic agent
D. In ophthalmology
E. In medicine for the treatment of gastric ulcer
365.
Physical properties of coniine are:
A. Oily liquid, soluble in water and organic solvents *
B. Oily liquid, insoluble in water and organic solvents
C. Oily liquid, insoluble in water but soluble in organic solvents
D. Crystalline substance, soluble in water and organic solvents
E. Crystalline substance, insoluble in water and organic solvents
366.
Formation of rhombic crystals is observed at microcrystaloscopic investigation of
"alkaline" chloroform extract with Dragendorff’s reagent. What is an alkaloid?
A. Coniine *
B. Anabasine
C. Nicotine
D. Ephedrine
E. Codeine
367.
Socrates - Greek philosopher was poisoned by …
A. Coniine *
B. Anabasine
C. Nicotine
D. Ephedrine
E. Codeine
368.
This alkaloid is in the hemlock. Due to high toxicity isn’t used in medicine. What is this?
A.
B.
C.
D.
E.
Coniine *
Anabasine
Nicotine
Ephedrine
Codeine
369.
This alkaloid has the smell of mouse urine. Choose this alkaloid.
A. Coniine *
B. Arecoline
C. Scopolamine
D. Quinine
E. Nicotine
370.
Choose colored reaction to detect of coniine in "alkaline" chloroform extract.
A. With copper salts and carbon disulfide *
B. With Dragendorff’s reagent
C. With formaldehyde
D. Formation of the sublimate
E. Color reaction isn’t used
371.
Choose microcrystaloscopic reaction to detect of coniine in "alkaline" chloroform extract.
A. With Dragendorff’s reagent *
B. With copper salts and carbon disulfide
C. With formaldehyde
D. Formation metylsalicylate
E. With picric acid
372.
Choose microcrystaloscopic reaction to detect of coniine in "alkaline" chloroform extract.
A. Formation sublimate *
B. With copper salts and carbon disulfide
C. With formaldehyde
D. Formation metylsalicylate
E. With picric acid
373.
Which method can be used as microcrystaloscopic reaction and as to purification the
"alkaline" chloroform extract contained coniine?
A. Sublimation *
B. This method is absent
C. Extraction
D. Dialysis
E. Distillation
374.
This alkaloid is often used for criminal abortions. What is an alkaloid?
A. Quinine or pachycarpine *
B. Atropine or quinine
C. Scopolamine or arecoline
D. Cocaine or pachycarpine
E. Oxytocinum or quinine
375.
What is the alkaloid used in medicine for stimulation uterine action?
A. Quinine or pachycarpine *
B. Atropine or quinine
C. Scopolamine or arecoline
D. Cocaine or pachycarpine
E. Oxytocinum or quinine
376.
Which analytical signal is observed in reaction of "alkaline" chloroform extract contained
coniine with copper sulfate and carbon disulfide?
A. Yellow color of organic layer *
B. Pink color, which becomes violet
C. Yellow color, which becomes blue
D. Red or chocolate brown
E. Red or pink color
377.
Physical properties of pachycarpine are:
A.
B.
C.
D.
E.
Oily liquid, soluble in water and organic solvents *
Oily liquid, insoluble in water and organic solvents
Oily liquid, insoluble in water but soluble in organic solvents
Crystalline substance, soluble in water and organic solvents
Crystalline substance, insoluble in water and organic solvents
378.
Yellow-green prismatic crystals are observed in microcrystaloscopic reaction of "alkaline"
chloroform extract with picric acid. What poison is present in the extract?
A. Pachycarpine *
B. Arecoline
C. Nicotine
D. Ephedrine
E. Codeine
379.
Which reagent is used for microcrystaloscopic investigation of pachycarpine in "alkaline"
chloroform extract?
A. Cobalt thiocyanate reagent *
B. Dragendorff’s reagent
C. Frohdes’s reagent
D. Bromine oxidation
E. Reinecke salt
380.
This alkaloid is often used for criminal abortions. What is an alkaloid?
A. Pachycarpine *
B. Atropine
C. Scopolamine
D. Cocaine
E. Oxytocinum
381.
What is the alkaloid used in medicine for stimulation uterine action?
A. Pachycarpine *
B. Atropine
C. Scopolamine
D. Cocaine
E. Oxytocinum
382.
Which reagent is used for microcrystaloscopic investigation of pachycarpine in "alkaline"
chloroform extract?
A. Bushard’s reagent *
B. Dragendorff’s reagent
C. Frohdes’s reagent
D. Bromine oxidation
E. Reinecke salt
383.
Expert toxicologist used a reaction with Bushard’s reagent to identify of pachycarpine in
"alkaline" chloroform extract. At the same time he observed the formation of:
A. Golden-yellow crystals in the form of oak leaves *
B. Blue prismatic crystals
C. Yellow-green prismatic crystals
D. Pink color
E. Violet organic layer
384.
Expert toxicologist used cobalt thiocyanate reagent to identify of pachycarpine in
"alkaline" chloroform extract. At the same time he observed the formation of:
A. Blue prismatic crystals *
B. Golden-yellow crystals in the form of oak leaves
C. Yellow-green prismatic crystals
D. Needle-like crystals
E. Violet organic layer
385.
Formation of blue prismatic crystals is observed in microcrystaloscopic reaction of
"alkaline" chloroform extract with cobalt thiocyanate reagent. What poison is present in the
extract?
A. Pachycarpine *
B.
C.
D.
E.
Quinine
Arecoline
Nicotine
Ephedrine
386.
Formation of yellow-green crystals in the form of oak leaves is observed in
microcrystaloscopic reaction of "alkaline" chloroform extract with Bushard’s reagent. What
poison is present in the extract?
A. Pachycarpine *
B. Quinine
C. Arecoline
D. Nicotine
E. Ephedrine
387.
Expert toxicologist used the reaction with bromine water to identify of pachycarpine in
"alkaline" chloroform extract. At the same time he observed the formation of:
A. Pink stains on filter paper *
B. Golden-yellow crystals in the form of oak leaves
C. Yellow-green prismatic crystals
D. Needle-like crystals
E. Violet organic layer
388.
Expert toxicologist used the reaction with sodium nitrite to identify of pachycarpine
hidroiodide in drug. At the same time he observed the formation of:
A. Violet organic layer *
B. Pink stains on filter paper
C. Golden-yellow crystals in the form of oak leaves
D. Yellow-green prismatic crystals
E. Needle-like crystals
389.
Choose color reaction for pachycarpine detection in "alkaline" chloroform extract.
A. With bromine water *
B. With formaldehyde
C. With sodium nitrite
D. With Frohdes’s reagent
E. With Marqui’s reagent
390.
Physical properties of scopolamine are:
A. Oily liquid, insoluble in water but soluble in organic solvents *
B. Oily liquid, soluble in water and organic solvents
C. Oily liquid, insoluble in water and organic solvents
D. Crystalline substance, soluble in water and organic solvents
E. Crystalline substance, soluble in water and organic solvents
391.
Choose analytical signal of reaction scopolamine with p-dimethylaminobenzaldehyde.
A. Red color, which becomes cherry-red, and violet *
B. Pink color, which becomes violet
C. Yellow color, which becomes blue
D. Red or chocolate brown
E. Red or pink color
392.
Urinary retention, dry mouth, skin flushing, tachycardia, inhibition of gastrointestinal
motility, shortness of breath appears at poisoning of this alkaloid.
A. Scopolamine *
B. Quinine
C. Arecoline
D. Nicotine
E. Ephedrine
393.
Toxicologist used reaction with Frohdes’s reagent to identify of scopolamine in "alkaline"
chloroform extract. At the same time he observed the formation of crystals:
A. yellowish-brown color *
B. Needle
C. Rectangular crystalls
D. blue color
E. This reaction is used in CTA
394.
Appearance of yellowish-brown color is observed at analyzing of "alkaline" chloroform
extract with Frohdes’s reagent. What is an alkaloid present in the extract?
A. Scopolamine *
B. Quinine
C. Arecoline
D. Nicotine
E. Cocaine
395.
Appearance of yellow color (at heating turned into blue) is observed at analyzing
"alkaline" chloroform extract with ammonium molybdate and hydrochloric acid. What is an
alkaloid present in the extract?
A. Scopolamine *
B. Quinine
C. Arecoline
D. Nicotine
E. Cocaine
396.
Choose a color reaction for detection of scopolamine in "alkaline" chloroform extract.
A. With Frohdes’s reagent *
B. With bromine water
C. With formaldehyde
D. With sodium nitrite
E. With Dragendorff’s reagent
397.
Choose a color reaction for detection of scopolamine in "alkaline" chloroform extract.
A. With ammonium molybdates and hydrochloric acid *
B. With bromine water
C. With formaldehyde
D. With sodium nitrite
E. With Dragendorff’s reagent
398.
Choose a color reaction for detection of scopolamine in "alkaline" chloroform extract.
A. Reaction Vitali-Morena *
B. With bromine water
C. With formaldehyde
D. With sodium nitrite
E. With Dragendorff’s reagent
399.
One of the metabolic products of scopolamine in the body is:
A. Scopine *
B. Tropine
C. Ecgonine
D. Not metabolized
E. Securinine
400.
One of the metabolic products of scopolamine in the body is:
A. Tropic acid *
B. Tropine
C. Ecgonine
D. Not metabolized
E. Securinine
401.
Scopolamine is metabolized by:
A. Hydrolysis *
B. Reduction
C. Oxidation
D. Methylation
E. Acetylation
402.
One of the metabolic products of atropine in the body is:
A. Tropine *
B. Scopine
C. Ecgonine
D. Not metabolized
E. Securinine
403.
One of the metabolic products of atropine in the body is:
A. Tropic acid *
B. Scopine
C. Ecgonine
D. Not metabolized
E. Securinine
404.
Atropine is metabolized by:
A. Hydrolysis *
B. Reduction
C. Oxidation
D. Methylation
E. Acetylation
405.
Choose analytical signal of reaction atropine with p-dimethylaminobenzaldehyde.
A. Red coloration, which becomes cherry-red, and then violet *
B. Pink color, which becomes violet
C. Yellow color, which becomes blue
D. Red or chocolate brown
E. Red or pink color
406.
Choose a color reaction for detection of atropine in the "alkaline" chloroform extract.
A. Reaction Vitali-Morena *
B. With bromine water
C. With formaldehyde
D. With sodium nitrite
E. With Dragendorff’s reagent
407.
Choose microcrystaloscopic reaction for detection of atropine in the "alkaline" chloroform
extract.
A. With picric acid *
B. This reaction is not
C. With Bushard’s reagent
D. With Frohdes’s reagent
E. With formaldehyde
408.
Reinecke salt can be used as alkaloid microcrystaloscopic reagent to identify of ….
A. Atropine *
B. Arecoline
C. Pachycarpine
D. Ephedrine
E. Codeine
409.
Formation of rhomboid crystals is observed in microcrystaloscopic reaction of "alkaline"
chloroform extraction with Reinecke salt. What poison is present in the extract?
A. Atropine *
B. Anabasine
C. Nicotine
D. Ephedrine
E. Codeine
410.
Formation of light-yellow plates is observed in microcrystaloscopic reaction of "alkaline"
chloroform extract with picric acid. What poison is present in the extract?
A. Atropine *
B. Arecoline
C. Nicotine
D. Ephedrine
E. Codeine
411.
Which alkaloid is used as an antimalarial agent?
A. Quinine *
B.
C.
D.
E.
Atropine
Scopolamine
Cocaine
Pachycarpine
412.
Quinineis metabolized by oxidation. If oxidation will be on ...., the product will be ....:
A. Quinoline cycle, oxyquinine *
B. Quinuclidine cycle, dioxyquinine
C. Vinyl radicals, hemoquinic acid
D. Quinoline cycle, quinetine
E. Vinyl radicals, oxyquinine
413.
Quinineis metabolized by oxidation. If oxidation will be on ...., the product will be ....:
A. Quinoline cycle, dioxyquinine *
B. Quinuclidine cycle, oxyquinine
C. Vinyl radicals, hemoquinic acid
D. Quinoline cycle, quinetine
E. Vinyl radicals, oxyquinine
414.
Quinineis metabolized by oxidation. If oxidation will be on ...., the product will be ....:
A. Quinuclidine cycle, hemohinna acid *
B. Quinoline cycle, tryoxyquinine
C. Vinyl radicals, oxyquinine
D. Quinoline cycle, quinetine
E. Vinyl radicals, oxyquinine
415.
Quinineis metabolized by oxidation. If oxidation will be on ...., the product will be ....:
A. Vinyl radicals, quinetine *
B. Quinuclidine cycle, dioxyquinine
C. Vinyl radicals, hemoquinic acid
D. Quinoline cycle, quinetine
E. Quinoline cycle, hemoquinic acid
416.
This alkaloid is often used for criminal abortions. What is an alkaloid?
A. Quinine *
B. Atropine
C. Scopolamine
D. Cocaine
E. Oxytocinum
417.
What is the alkaloid used in medicine for stimulation of labor activity?
A. Quinine *
B. Atropine
C. Scopolamine
D. Cocaine
E. Oxytocinum
418.
What is the alkaloid can be found in the "alkaline" chloroform extract by blue
fluorescence in the presence of sulfuric acid.
A. Quinine *
B. Pachycarpine
C. Nicotine
D. Ephedrine
E. Codeine
419.
Color reaction for detection of quinine in the "alkaline" chloroform extract are:
A. Erythroquine reaction *
B. With cobalt thiocyanate
C. With Dragendorff’s reagent
D. Such reactions to quinine detection isn’t used
E. With Marqui’s reagent
420.
Color reaction for detection of quinine in the "alkaline" chloroform extract are:
A. Thaleioquine reaction *
B. With thiocyanate cobalt
C. With Dragendorff’s reagent
D. Such reactions to quinine detection isn’t used
E. With Marqui’s reagent
421.
Thaleioquine test is used for the detection of quinine in the "alkaline" chloroform extract.
What is color in an alkaline medium?
A. Bright green *
B. Blue
C. Red
D. Yellow
E. Red precipitate
422.
Thaleioquine test is used for the detection of quinine in the "alkaline" chloroform extract.
What is color in neutral medium?
A. Blue *
B. Bright green
C. Red
D. Yellow
E. Red precipitate
423.
Thaleioquine test is used for the detection of quinine in the "alkaline" chloroform extract.
What is color in an acidic medium?
A. Red *
B. Bright green
C. Blue
D. Yellow
E. Red precipitate
424.
Erythroquine test is used for the detection of quinine in the "alkaline" chloroform extract.
What is color in an alkaline medium?
A. Red-violet *
B. Bright green
C. Blue
D. Yellow
E. Red precipitate
425.
One of the metabolic products of cocaine in the body are:
A. Ecgonine *
B. Tropic acid
C. Scopine
D. Not metabolized
E. Securinine
426.
Cocaine is metabolized by:
A. Hydrolysis *
B. Reduction
C. Oxidation
D. Methylation
E. Acetylation
427.
Which alkaloid is used as a local anesthetic agent?
A. Cocaine *
B. Pachycarpine
C. Nicotine
D. Ephedrine
E. Codeine
428.
Formation of rectangular crystals is observed in microcrystaloscopic reaction of "alkaline"
chloroform extract with potassium permanganate. What poison is present in the extract?
A. Cocaine *
B. Pachycarpine
C. Nicotine
D. Ephedrine
E. Codeine
429.
Formation of light yellow dendrites is observed in microcrystaloscopic reaction of
"alkaline" chloroform extract with hexachloroplatinate acid. What poison is present in the
extract?
A. Cocaine *
B. Pachycarpine
C. Nicotine
D. Ephedrine
E. Codeine
430.
In microcrystaloscopic reaction of "alkaline" chloroform extract containing the cocaine
with potassium permanganate was observed….
A. rectangular crystals *
B. light yellow dendrites
C. needle-like crystals
D. rhombic
E. in the form of oak leaves
431.
Choose general method for isolation of quinine from biological material:
A. Vasilyeva’s *
B. Kramarenko’s
C. Salomatin’s
D. Valov’s
E. Izotov’s
432.
Choose a general method for quinine isolation from biological material:
A. Stas-Otto’s *
B. Kramarenko’s
C. Salomatin’s
D. Valov’s
E. Izotov’s
433.
Choose a specific method for quinine isolation from biological material:
A. Kramarenko’s *
B. Vasilyeva’s
C. Stas-Otto’s
D. Valov’s
E. Izotov’s
434.
Choose a general method for isolation of nicotine from biological material:
A. Vasilyeva *
B. Kramarenko’s
C. Salomatin’s
D. Valov’s
E. Izotov’s
435.
Choose a general method for isolation of nicotine from biological material:
A. Stas-Otto’s *
B. Kramarenko’s
C. Salomatin’s
D. Valov’s
E. Izotov’s
436.
Choose specific method for isolation of nicotine from biological material:
A. Kramarenko’s *
B. Vasilyeva’s
C. Stas-Otto’s
D. Valov’s
E. Izotov’s
437.
Choose a general method for isolation of anabasine from biological material:
A. Vasilyeva *
B. Kramarenko’s
C. Salomatin’s
D. Valov’s
438.
439.
440.
441.
442.
443.
444.
445.
446.
447.
E. Izotov’s
Choose a general method for isolation of anabasine from biological material:
A. Stas-Otto’s *
B. Kramarenko’s
C. Salomatin’s
D. Valov’s
E. Izotov’s
Choose a specific method for isolation of anabasine from biological material:
A. Kramarenko’s *
B. Vasilyeva’s
C. Stas-Otto’s
D. Valov’s
E. Izotov’s
Choose a general method for isolation of pachycarpine from biological material:
A. Vasilyeva’s *
B. Kramarenko’s
C. Salomatin’s
D. Valov’s
E. Izotov’s
Choose a general method for isolation of pachycarpine from biological material:
A. Stas-Otto’s *
B. Kramarenko’s
C. Salomatin’s
D. Valov’s
E. Izotov’s
Choose a specific method for isolation of pachycarpine from biological material:
A. Kramarenko’s *
B. Vasilyeva’s
C. Stas-Otto’s
D. Valov’s
E. Izotov’s
Choose a general method for isolation of atropine from biological material:
A. Vasilyeva *
B. Kramarenko’s
C. Salomatin’s
D. Valov’s
E. Izotov’s
Choose a general method for isolation of atropine from biological material:
A. Stas-Otto’s *
B. Kramarenko’s
C. Salomatin’s
D. Valov’s
E. Izotov’s
Choose a specific method for isolation of atropine from biological material:
A. Kramarenko’s *
B. Vasilyeva’s
C. Stas-Otto’s
D. Valov’s
E. Izotov’s
Choose a general method for isolation of scopolamine from biological material:
A. Vasilyeva *
B. Kramarenko’s
C. Salomatin’s
D. Valov’s
E. Izotov’s
Choose a general method for isolation of scopolamine from biological material:
Stas-Otto’s *
Kramarenko’s
Salomatin’s
Valov’s
Izotov’s
448.
Choose a specific method for isolation of scopolamine from biological material:
A. Kramarenko’s *
B. Vasilyeva’s
C. Stas-Otto’s
D. Valov’s
E. Izotov’s
449.
Choose a general method for isolation of ephedrine from biological material:
A. Vasilyeva’s *
B. Kramarenko’s
C. Salomatin’s
D. Valov’s
E. Izotov’s
450.
Choose a general method for isolation of ephedrine from biological material:
A. Stas-Otto’s *
B. Kramarenko’s
C. Salomatin’s
D. Valov’s
E. Izotov’s
451.
Choose a specific method for isolation of ephedrine from biological material:
A. Kramarenko’s *
B. Vasilyeva’s
C. Stas-Otto’s
D. Valov’s
E. Izotov’s
452.
Forensic toxicologist chooses special "color" reagents. Which reagent gives color with
alkaloids?
A. Marmi
B. Wagner
C. Mayer
D. Marqui’s *
E. Dragendorff’s
453.
Solution of iron (III) chloride is often used as a reagent in toxicological analysis. Which
drugs do give the reaction with this reagent?
A. morphine, heroin
B. codeine, salicylic acid
C. morphine, apomorphine *
D. dionin, analgin
E. papaverine, antipyrine
454.
Forensic toxicologist observed yellow-green fluorescence in the UV spectrum at
investigation of extract from biological material after the addition of acetic anhydride and sulfuric
acid solution. Which substance can be present in the extract?
A. Papaverine *
B. Quinine
C. Scopolamine
D. Nicotine
E. Cocaine
455.
Forensic toxicologist don’t receive positive reaction with Marqui’s reagents at investigation
of extract. Which alkaloids do not react with this "color" reagent?
A. Morphine
B. Codeine
C. Dionin
A.
B.
C.
D.
E.
D. Atropine *
E. Narcotine
456.
Forensic toxicologist chooses general presipitation alkaloidal reagents. They include:
A. Mayer’s reagent
B. phosphorus-tungsten acid
C. phosphorus-molybdenum acid
D. picric acid
E. All reagents *
457.
Which alkaloids do not give stable salts with acids and can be detected in acidic chloroform
extract?
A. Morphine
B. Anabasine
C. Caffeine *
D. Cocaine
E. Quinine
458.
Which poison is not belonged to derivatives of isoquinoline?
A. Codeine
B. Caffeine *
C. Dionin
D. Heroin
E. Papaverine
459.
Forensic toxicologist performed 'colored' reaction. Reactions with "colored" reagents on
alkaloids are done with:
A. chloroform extracts
B. dry residue *
C. water solution
D. alcohol solution
E. All the above is true
460.
Forensic toxicologist perfomed "color" the reaction on alkiline chloroform. Which
substance does react with Marqui’s and Mandelin’s reagents?
A. Morphine
B. Codeine
C. Heroin
D. Dionin
E. All these compounds *
461.
Forensic toxicologist perfomed precipitation reagents for alkaloids. Choose this reagent.
A. Dragendorff’s *
B. Marqui’s
C. Mandelin’s
D. Frohdes’s
E. Erdmann’s
462.
Which reagent can be used for detection of promedol in "alkaline" chloroform extract?
A. Marqui’s *
B. Frohdes’s
C. Mandelin’s
D. Vitali-Morena
E. Bucke
463.
Morphine is one of metabolites of codeine in the body. Choose process of biotranformation.
A. Hydrolysis
B. Dealkylation *
C. Oxidation
D. Reduction
E. Conjugation
464.
Which alkaloid dose contain phenol hydroxyl?
A. Codeine
B. Caffeine
C. Quinine
D. Morphine *
E. Ephedrine
465.
Forensic toxicologist received a colored compound with Marqui’s reagent. Which
substance reacts with this "color" reagent?
A. Morphine
B. Codeine
C. Dionin
D. Heroin
E. All the compounds *
466.
There was a combined poisoning by morphine and codeine. Which reagent can be used for
difference morphine from codeine?
A. iron (III) chloride *
B. Marqui’s
C. Mandelin’s
D. Frohdes’s
E. Dragendorff’s
467.
A qualitative determination of alkaloids. Choose color reagents for this group of
substances.
A. Dragendorff’s, Mayer’s, Wagner’s
B. picric acid, phosphorus-molybdenum acid, phosphorus-tungsten acid
C. Marme’s, Zonnenstein’s, Bushard’s
D. Marqui’s, Frohdes’s, Mandelin’s *
E. Marme’s, Dragendorff’s, tannin
468.
This ackaloid doesn’t give Pellagri reaction.
A. Morphine
B. Codeine
C. Papaverine *
D. Dionin
E. Apomorphine
469.
Forensic toxicologist did microcrystaloscopic reaction with cadmium chloride at
investigation of extract from biological material and obtained a positive result. Which substance is
present in the extract?
A. Ephedrine
B. Papaverine *
C. Dionin
D. Promedol
E. Cocaine
470.
Dirty-green color appears which turned into blue in reaction of dry residue of "alkaline"
chloroform extract with Frohdes’s reagent. Which substance is present in the extract?
A. Apomorphine *
B. Codeine
C. Cocaine
D. Dionin
E. Ethylmorphine
471.
Stable red color appears in reaction of dry residue of "alkaline" chloroform extract with
Erdmann’s reagent. Which substance is present in the extract?
A. Apomorphine *
B. Morphine
C. Cocaine
D. Dionin
E. Ethylmorphine
472.
Blue color appears in reaction of dry residue of "alkaline" chloroform extract with iron
(III) chloride solution. Which substance is present in the extract?
A. Apomorphine *
B. Codeine
C. Cocaine
D. Dionin
E. Ethylmorphine
473.
"Alkaline" chloroform extract containing Apomorphine is investigated by Pellagri
reaction. It is observed ... color of chloroform layer.
A. Green *
B. Blue
C. Purple-red
D. Yellow
E. Do not give this reaction
474.
"Alkaline" chloroform extract containing Apomorphine is investigated by Pellagri
reaction. It is observed ... color of ether layer.
A. Purple-red *
B. Green
C. Blue
D. Yellow
E. Do not give this reaction
475.
Violet color turned into a red-green appears in reaction of dry residue of "alkaline"
chloroform extract with Marqui’s reagent. Which substance is present in the extract?
A. Apomorphine *
B. Codeine
C. Cocaine
D. Dionin
E. Ethylmorphine
476.
Violet color turned into a reddish-brown appears in reaction of dry residue of "alkaline"
chloroform extract with concentrated nitrate acid. Which substance is present in the extract?
A. Apomorphine *
B. Codeine
C. Cocaine
D. Dionin
E. Ethylmorphine
477.
Red color turned into green appears in reaction of dry residue of "alkaline" chloroform
extract with concentrated nitric and sulfuric acid. Which substance is present in the extract?
A. Apomorphine *
B. Codeine
C. Cocaine
D. Dionin
E. Ethylmorphine
478.
Which poison can be detected by the concentrated nitric acid?
A. Apomorphine *
B. Codeine
C. Cocaine
D. Dionin
E. Anyone
479.
Color reagents for detection of Apomorphine are:
A. Frohdes’s, Erdmann’s, Marqui’s, concentrated nitric acid *
B. Frohdes’s, Mandelin’s, Marqui’s, concentrated sulfuric acid
C. Frohdes’s, Erdmann’s, Marqui’s, concentrated hydrochloric acid
D. Frohdes’s, Erdmann’s, Vitali-Morena, concentrated nitric acid
E. Frohdes’s, Erdmann’s, Duckenay, concentrated nitric acid
480.
Color reagents for detection of Apomorphine are:
A. Mandelin’s, Erdmann’s, Marqui’s, concentrated nitric and sulfuric acid *
B. Erdmann’s, Mandelin’s, Marqui’s, concentrated sulfuric acid
C. Mandelin’s, Erdmann’s, Marqui’s, concentrated nitric and hydrochloric acid
D. Frohdes’s, Mayera’s, Vitali-Morena, concentrated nitric and sulfuric acid
E. Frohdes’s, Pauly, Duckenay, concentrated nitric acid
Which reagent isn’t used for detection of Apomorphine?
A. Iodatic acid *
B. Concentrated sulfuric and nitric acid
C. Concentrated nitric acid
D. Erdmann’s reagent
E. Mandelin’s reagent
482.
What reagent can be used for the analysis of Apomorphine by microcrystaloscopic
reaction?
A. This reaction is absent *
B. Dragendorff’s
C. Picric acid
D. Mercury chloride
E. Cadmium chloride
483.
Which poison gives Pellagri reaction?
A. Apomorphine *
B. Promedol
C. Papaverine
D. Cocaine
E. Nothing
484.
Pellagri reaction can be used for identification:
A. Apomorphine *
B. Promedol
C. Papaverine
D. Cocaine
E. Anyone
485.
Expert toxicologist observed .... in reaction of "alkaline" chloroform extract containing
Apomorphine with Marqui’s reagents:
A. Violet color, turns into a red-green *
B. Do not give this reaction
C. The yellow precipitate
D. Blue-green color
E. Dirty-green color turns into the blue
486.
Expert toxicologist observed .... in reaction of "alkaline" chloroform extract containing
Apomorphine with Mandelin’s reagents:
A. Blue-green color *
B. Violet color, turned into a red-green
C. Do not give this reaction
D. The yellow precipitate
E. Dirty-green turned into the blue
487.
Expert toxicologist observed .... in reaction of "alkaline" chloroform extract containing
Apomorphine with Frohdes’s reagents:
A. Dirty-green turned into the blue *
B. Violet, who turned into a red-green
C. Do not give this reaction
D. The yellow precipitate
E. Blue-green color
488.
Expert toxicologist observed .... in reaction of "alkaline" chloroform extract containing
Apomorphine with Erdmann’s reagents:
A. Red color *
B. Violet, turned into a red-green
C. Precipitate
D. Blue-green
E. Dirty-green turned into the blue
489.
Expert toxicologist observed .... in reaction of "alkaline" chloroform extract containing
Apomorphine with iron (III) chloride:
A. Blue color *
481.
B.
C.
D.
E.
Do not give this reaction
Precipitate
Blue-green
Dirty-green turned into the blue
490.
Expert toxicologist observed .... in reaction of "alkaline" chloroform extract containing
Apomorphine with concentrated nitric acid:
A. violet color, passing into reddish-brown *
B. Do not give this reaction
C. Violet, turned into a red-green
D. Blue-green
E. Dirty-green turned into the blue
491.
Expert toxicologist observed .... in reaction of "alkaline" chloroform extract containing
Apomorphine with concentrated nitric acid and sulfuric acids:
A. Red turned into the green *
B. Violet, turned into a red-green
C. Do not give this reaction
D. Precipitate
E. Dirty-green turned into the blue
492.
Apomorphine used in medicine as .... as a means ...:
A. Hydrochloride, emetic *
B. Hydrochloride, antiemetic
C. Phosphate, emetic
D. Hydrochloride, analgetic
E. Hydrochloride, in ophthalmology
493.
Which substance change color on green on the air?
A. Apomorphine *
B. Promedol
C. Papaverine
D. Cocaine
E. Anyone substance does not change color
494.
Which substance is formed at heating of morphine with concentrated hydrochloric acid
and sulfuric acid?
A. Apomorphine *
B. Normorphine
C. Psevdomorphine
D. Codeine
E. Cocaine
495.
Pellagri reaction can be used to identification:
A. Heroin *
B. Promedol
C. Papaverine
D. Cocaine
E. Anyone
496.
Which poison gives Pellagri reaction?
A. Heroin *
B. Promedol
C. Paracetamol
D. Cocaine
E. Anyone
497.
Which is reagent can be used as microcrystaloscopic reagent for detection of heroin?
A. This reaction is absent *
B. Dragendorff’s
C. Picric acid
D. Mercury (II) chloride
E. Cadmium chloride
498.
Purple color turned into a dirty green, then in pink appears in reaction of dry residue of
"alkaline" chloroform extract with Frohdes’s reagent. Which substance is present in the extract?
A. Heroin *
B. Codeine
C. Cocaine
D. Dionin
E. Ethylmorphine
499.
"Alkaline" chloroform extract containing heroin is investigated by Pellagri reaction. It is
observed ... color of chloroform layer.
A. Green *
B. Blue
C. Purple-red
D. Yellow
E. Do not give this reaction
500.
"Alkaline" chloroform extract containing heroin is investigated by Pellagri reaction. It is
observed ... color of ether layer.
A. Purple-red *
B. Green
C. Blue
D. Yellow
E. Do not give this reaction
501.
Violet color turned into a dirty green, then in pink appears in reaction of dry residue of
"alkaline" chloroform extract with Mandelin’s reagent. Which substance is present in the
extract?
A. Heroin *
B. Codeine
C. Cocaine
D. Dionin
E. Ethylmorphine
502.
Red color, which turned into purple, is observed in reaction of dry residue "alkaline"
chloroform extract with Marqui’s reagent. Which poison can be present in extract?
A. Heroin *
B. Codeine
C. Cocaine
D. Dionin
E. Ethylmorphine
503.
Which reaction can be used for detection of heroin?
A. Formation of ethyl acetate *
B. Formation ethylpropanoate
C. With concentrated sulfuric acid
D. With Erdmann’s reagent
E. Anyone of the reactions does not give a positive analytical effect
504.
Choose reagent for detection of heroin:
A. Marqui’s, Mandelin’s, Pellagri *
B. Marqui’s, Erdmann’s, Pellagri
C. Iron (III) chloride, Mandelin’s, Pellagri
D. Marqui’s, Mandelin’s, cadmium chloride
E. Marqui’s, Mandelin’s, mercury chloride
505.
Which reagent isn’t used in forensic toxicological analysis for the detection of heroin?
A. Erdmann’s *
B. Marqui’s
C. The reaction formation of ethyl acetate
D. Mandelin’s
E. Dragendorff’s
506.
Which reagent isn’t used in forensic toxicological analysis for the detection of heroin?
A. Iron (III) chloride *
Marqui’s
The reaction formation of ethyl acetate
Mandelin’s
Scheibler’s
507.
Which type of reaction isn’t used at detection of heroin?
A. Microcrystaloscopic *
B. Precipitation
C. Color
D. Esterification
E. Oxidation
508.
Expert toxicologist observed .... in reaction of "alkaline"
heroin with Mandelin’s reagent:
A. Violet *
B. Do not give this reaction
C. Red, which was passed in violet
D. Analytical effect of this reaction - an odor
E. Violet, turns into a dirty-green, and pink
509.
Expert toxicologist observed .... in reaction of "alkaline"
heroin with Marqui’s reagent:
A. Red, which turned into a violet *
B. Violet
C. Do not give this reaction
D. Analytical effect of this reaction - an odor
E. Violet, who turns into a dirty-green, and pink
510.
Expert toxicologist observed .... in reaction of "alkaline"
heroin with Frohdes’s reagent.
A. Violet, who turns into a dirty-green, and pink *
B. Violet
C. Do not give this reaction
D. Red, which was passed in violet
E. Analytical effect of this reaction - an odor
511.
Expert toxicologist observed .... in reaction of "alkaline"
heroin with Erdmann’s reagent:
A. Do not give this reaction *
B. Violet
C. Red, which was passed in violet
D. Analytical effect of this reaction - an odor
E. Violet, who turns into a dirty-green, and pink
512.
Expert toxicologist observed .... in reaction of "alkaline"
heroin with ethyl alcohol.
A. Analytical effect of this reaction - an odor *
B. Violet
C. Do not give this reaction
D. Red, which was passed in violet
E. Violet, who turns into a dirty-green, and pink
513.
Choose the same name of drug:
A. Diacethylmorphine and heroin *
B. Methylmorphine and heroin
C. Ethylmorphine and codeine
D. Methylmorphine and dionin
E. Ethylmorphine and heroin
514.
Heroin is metbolyzed in body by….:
A. Hydrolysis *
B. Methylation
C. Dealkylation
D. Esterification
B.
C.
D.
E.
chloroform extract containing
chloroform extract containing
chloroform extract containing
chloroform extract containing
chloroform extract containing
515.
516.
517.
518.
519.
520.
521.
522.
523.
524.
E. Oxidation
Heroin is metabolized by:
A. Hydrolysis, I phase biotransformation *
B. Methylation, II phase biotransformation
C. Dealkylation, I phase biotransformation
D. Esterification, II phase biotransformation
E. Oxidation, I phase biotransformation
Heroin is metabolized and formed:
A. Morphine and acetic acid *
B. Codeine and acetic acid
C. Normorphine
D. Norcodeine
E. Excreted from the body unchanged
Morphine is metabolized by N-demethylation and product of this process is:
A. Normorphine *
B. Acetic acid
C. Codeine
D. Norcodeine
E. Doesn’t metabolyzed
Morphine is metabolized by .... with the formation ....:
A. N-demethylation, normorphine *
B. Hydrolysis, acetic acid
C. N-demethylation, codeine
D. O-methylation, norcodeine
E. Acetylation, heroin
Morphine is metabolized by .... with the formation ....:
A. O-methylation, codeine *
B. Hydrolysis, acetic acid
C. N-demethylation, codeine
D. O-methylation, normorphine
E. Acetylation, heroin
Morphine is metabolized by .... (....phase biotransformation):
A. N-demethylation, I *
B. Hydrolysis, I
C. N-demethylation, II
D. O-methylation, I
E. Acetylation, II
Morphine is metabolized by .... (....phase biotransformation):
A. O-methylation, II *
B. Hydrolysis, I
C. N-demethylation, II
D. O-methylation, I
E. Acetylation, II
Morphine is metabolized by O-methylation and form:
A. Codeine *
B. Acetic acid
C. Normorphine
D. Norcodeine
E. Doesn’t metabolyzed
Morphine is used in medicine as .... as a means ...:
A. Hydrochloride, analgetic *
B. Hydrochloride, emetic
C. Hydrochloride, antiemetic
D. Phosphate, emetic
E. Hydrochloride, in ophthalmology
Pellagri reaction can be used for identification:
A.
B.
C.
D.
E.
Morphine *
Promedol
Papaverine
Cocaine
Anyone
525.
Violet color is observed in reaction of dry residue "alkaline" chloroform extract with
Frohdes’s reagent. Which poison can be present in extract?
A. Morphine *
B. Apomorphine
C. Codeine
D. Cocaine
E. Dionin
526.
Red color, which becomes yellow, is observed in reaction of dry residue "alkaline"
chloroform extract with Erdmann’s reagent. Which poison can be present in extract?
A. Morphine *
B. Apomorphine
C. Cocaine
D. Dionin
E. Ethylmorphine
527.
Blue color is observed in reaction of dry residue "alkaline" chloroform extract with iron
(III) chloride. Which poison can be present in extract?
A. Morphine *
B. Codeine
C. Cocaine
D. Dionin
E. Ethylmorphine
528.
"Alkaline" chloroform extract containing morphine is investigated by Pellagri reaction. It
is observed ... color of ether layer.
A. Green *
B. Blue
C. Purple-red
D. Yellow
E. Do not give this reaction
529.
"Alkaline" chloroform extract containing morphine is investigated by Pellagri reaction. It
is observed ... color of ether layer.
A. Purple-red *
B. Green
C. Blue
D. Yellow
E. Do not give this reaction
530.
Violet color is observed in reaction of dry residue "alkaline" chloroform extract with
Mandelin’s reagent. Which poison can be present in extract?
A. Morphine *
B. Codeine
C. Cocaine
D. Dionin
E. Ethylmorphine
531.
Violet color is observed in reaction of dry residue "alkaline" chloroform extract with
Marqui’s reagent. Which poison can be present in extract?
A. Morphine *
B. Codeine
C. Cocaine
D. Dionin
E. Ethylmorphine
532.
Alkaline" chloroform extract containing morphine is investigated with a concentrated
nitric acid. It is observed ....
A.
B.
C.
D.
E.
Blood-red, which becomes orange-yellow *
Violet
Purple organic layer
Blue precipitate
Red, which becomes yellow
533.
Expert toxicologist did reaction of morphine with Marqui’s reagents. Choose analytical
signal of this reaction.
A. Violet *
B. Blood-red, which becomes orange-yellow
C. Violet organic layer
D. Blue precipitate
E. Red, which becomes yellow
534.
Expert toxicologist did reaction of morphine with Frohdes’s reagents. Choose analytical
signal of this reaction.
A. Violet *
B. Blood-red, which becomes orange-yellow
C. Violet organic layer
D. Blue precipitate
E. Red, which becomes yellow
535.
Expert toxicologist did reaction of morphine with Erdamann’s reagents. Choose analytical
signal of this reaction.
A. Red, which becomes yellow *
B. Violet
C. Blood-red, which becomes orange-yellow
D. Violet organic layer
E. Blue precipitate
536.
Expert toxicologist did reaction of morphine with iron (III) chloride. Choose analytical
signal of this reaction.
A. Blue *
B. Blood-red, which becomes orange-yellow
C. Violet organic layer
D. Blue precipitate
E. Red, which becomes yellow
537.
Expert toxicologist did reaction of morphine with iodatic acid. Choose analytical signal of
this reaction.
A. Violet organic layer *
B. Violet solution
C. Blood-red, which becomes orange-yellow
D. Blue precipitate
E. Red that turns into yellow
538.
Expert toxicologist did reaction of morphine with potassium hexacyanoferrate (III) and
iron (III) chloride. Choose analytical signal of this reaction.
A. Blue precipitate *
B. Violet
C. Blood-red, which becomes orange-yellow
D. Violet organic layer
E. Red, which becomes yellow
539.
What reaction isn’t used for detection of morphine in the "alkaline" chloroform extract?
A. With potassium hexacyanoferrate (II) and iron (III) chloride *
B. With potassium hexacyanoferrate (III) and iron (III) chloride
C. With iron (III) chloride
D. With Marqui’s reagent
E. With Dragendorff’s reagent
540.
Codeine is metabolized by N-demethylation and formed:
A. Norcodeine *
B. Normorphine
541.
542.
543.
544.
545.
546.
547.
548.
549.
C. Acetic acid
D. Morphine
E. Excreted from the body unchanged
Codeine is metabolized by .... with the formation ....:
A. N-demethylation, norcodeine *
B. Hydrolysis, acetic acid
C. N-demethylation, codeine
D. O-methylation, normorphine
E. Acetylation, heroin
Codeine is metabolized by .... with the formation ....:
A. O-demethylation, morphine *
B. Hydrolysis, acetic acid
C. N-methylation, norcodeine
D. O-methylation, normorphine
E. Acetylation, heroin
Codeine is metabolized by .... (....phase biotransformation):
A. N-demethylation, I *
B. Hydrolysis, I
C. N-demethylation, II
D. O-methylation, I
E. Acetylation, II
Codeine is metabolized by .... (....phase biotransformation):
A. O-demethylation, I *
B. Hydrolysis, I
C. N-demethylation, II
D. O-methylation, I
E. Acetylation, II
Codeine is metabolized by O-demethylation and formed:
A. Morphine *
B. Acetic acid
C. Normorphine
D. Norcodeine
E. Excreted from the body unchanged
Most of codeine is used in medicine as:
A. Phosphate *
B. Chloride
C. Nitrate
D. Sulphate
E. Bromide
Codeine is used in medicine as ...:
A. Antibechic *
B. In ophthalmology
C. It is never used in medicine
D. Spasmolytic
E. Antiasthmatic
Choose names of the same drug:
A. Methylmorphine and codeine *
B. Diacethylmorphine and dionin
C. Methylmorphine and heroin
D. Ethylmorphine and heroin
E. Ethylmorphine and promedol
Codeine is used in medicine as .... as a means ...:
A. Phosphate, antitussive*
B. Hydrochloride, emetic
C. Hydrochloride, antiemetic
D. Hydrochloride, analgesic
E. Hydrochloride, in ophthalmology
550.
Pellagri reaction can be used for identification:
A. Codeine *
B. Promedol
C. Papaverine
D. Cocaine
E. Anyone
551.
Expert toxicologist used microcrystaloscopic reaction with cadmium iodide in analysis of
"alkaline" chloroform extract. It gave a positive result. Which poison can be detected by this
reagent?
A. Codeine *
B. Dionin
C. Apomorphine
D. Promedol
E. Anyone
552.
Expert toxicologist used microcrystaloscopic reaction with cadmium iodide in analysis of
"alkaline" chloroform extract. It gave prismatic crystals are collected in bundles. Which poison
can be detected by this reagent?
A. Codeine *
B. Morphine
C. Apomorphine
D. Promedol
E. Anyone
553.
Which is the reagent can be used for the analysis of codeine by microcrystaloscopic
reaction?
A. Cadmium iodide *
B. This reaction is not
C. Dragendorff’s
D. Picric acid
E. Cadmium chloride
554.
Green color, which turned into a bluish, is observed in reaction of dry residue "alkaline"
chloroform extract with Frohdes’s reagent. Which poison can be present in extract?
A. Codeine *
B. Apomorphine
C. Cocaine
D. Dionin
E. Ethylmorphine
555.
"Alkaline" chloroform extract containing codeine is investigated by Pellagri reaction. It is
observed ... color of chloroform layer.
A. Green *
B. Blue
C. Purple-red
D. Yellow
E. Do not give this reaction
556.
Green color, which turned into a blue, is observed in reaction of dry residue "alkaline"
chloroform extract with Mandelin’s reagent. Which poison can be present in extract?
A. Codeine *
B. Morphine
C. Cocaine
D. Dionin
E. Ethylmorphine
557.
"Alkaline" chloroform extract containing codeine is investigated by Pellagri reaction. It is
observed ... color of ether layer.
A. Purple-red *
B. Green
C. Blue
D. Yellow
E. Do not give this reaction
558.
Expert toxicologist observed …. in reaction of "alkaline" chloroform extract, containing
codeine, with Mandelin’s reagent:
A. Green, passing in blue *
B. Violet
C. Blood-red, which becomes orange-yellow
D. Green
E. Bluish
559.
Expert toxicologist observed …. in reaction of "alkaline" chloroform extract, containing
codeine, with Marqui’s reagent:
A. Green with bluish tint *
B. Blue
C. Purple
D. Blood-red, which becomes orange-yellow
E. Green
560.
Expert toxicologist observed …. in reaction of "alkaline" chloroform extract, containing
codeine, with a Erdmann’s reagent:
A. Do not give the reaction *
B. Purple
C. Green, who goes into the blue
D. Green with bluish tint
E. Green, who becomes bluish
561.
For the forensic toxicological analysis of "alkaline" chloroform extract on codeine, expert
toxicologist chose reagents:
A. Marqui’s, Dragendorff’s, Mandelin’s *
B. Erdmann’s, Marqui’s, Frohdes’s
C. Meyer’s, Zonnenstein’s, iron (III) chloride
D. Iodatic acid, Scheibler’s, Marqui’s
E. The correct answer is no
562.
Codeine does not react with reagent:
A. Iron (III) chloride *
B. Dragendorff’s
C. Marqui’s
D. Frohdes’s
E. Mandelin’s
563.
Codeine does not react with reagent:
A. Erdmann’s *
B. Dragendorff’s
C. Marqui’s
D. Mayer
E. Mandelin’s
564.
Dionin is used in medicine mainly as ...:
A. Antitussive *
B. Analgesic
C. It is never used in medicine
D. Spasmolytic
E. Antiasthmatic
565.
Dionin used in medicine as ...:
A. In ophthalmology *
B. Analgesic
C. It is never used in medicine
D. Spasmolytic means
E. Antiasthmatic
566.
Choose the name of the same drugs:
A. Ethylmorphine and dionin *
B.
C.
D.
E.
Diacethylmorphine and codeine
Methylmorphine and heroin
Methylmorphine and dionin
Ethylmorphine and heroin
567.
Dionin used in medicine as .... as ...:
A. Hydrochloride, in ophthalmology *
B. Hydrochloride, emetic
C. Hydrochloride, antiemetic
D. Phosphate, Antitussive
E. Hydrochloride, analgesic
568.
Expert toxicologist used microcrystaloscopic reaction with mercury (II) chloride to analyze
of the "alkaline" chloroform extract. It gave a positive result. Which poison can be detected by
this reagent?
A. Dionin *
B. Codeine
C. Apomorphine
D. Promedol
E. Anyone
569.
Expert toxicologist used microcrystaloscopic reaction with mercury (II) chloride to analyze
of the "alkaline" chloroform extract. It formed prismatic crystals. Which poison is contained in
the extract?
A. Dionin *
B. Codeine
C. Apomorphine
D. Promedol
E. Anyone
570.
Which is reagent can be used for microcrystaloscopic reaction in analysis on presence of
dionin?
A. Mercury chloride *
B. This reaction is not
C. Dragendorff’s
D. Picric acid
E. Cadmium chloride
571.
Green color turned into blue appears in reaction of dry residue with Frohdes’s reagent.
The presence of which poison can you speak?
A. Dionin *
B. Codeine
C. Apomorphine
D. Cocaine
E. Methylmorphine
572.
"Alkaline" chloroform extract containing ethylmorphine is investigated by Pellagri
reaction. It is observed ... color of ether layer.
A. Purple-red *
B. Green
C. Blue
D. Yellow
E. Do not give this reaction
573.
Choose reagent for detection of dionin:
A. Marqui’s, Dragendorff’s, Mandelin’s *
B. Erdmann’s, Marqui’s, Frohdes’s
C. Meyer, Zonnenstein’s, iron (III) chloride
D. Yodatna acid Scheibler’s, Marqui’s
E. The correct answer is no
574.
Erdmann’s reagent is added to dry residue. If dionin is present in extract, so it is observed
....
A. Doesn’t give this reaction *
B.
C.
D.
E.
Blue
Red
Green color
Blue turns into blue-violet
Mandelin’s reagent is added to dry residue. If dionin is present in extract, so it is observed
A.
B.
C.
D.
E.
Green color *
Blue
Red
Blue turns into the blue-violet
Doesn’t give this reaction
Marqui’s reagent is added to dry residue. If dionin is present in extract, so it is observed ....
Blue turnss into the blue-violet *
Blue
Red
Green color
Doesn’t give this reaction
Frohdes’s reagent is added to dry residue. If dionin is present in extract, so it is observed
575.
....
576.
A.
B.
C.
D.
E.
577.
....
A.
B.
C.
D.
E.
578.
A.
B.
C.
D.
E.
579.
A.
B.
C.
D.
E.
580.
A.
B.
C.
D.
E.
581.
A.
B.
C.
D.
E.
582.
A.
B.
C.
D.
E.
583.
A.
Green turns into a blue *
Blue
Red
Blue turns into the blue-violet
Doesn’t give this reaction
Which reaction does not used for identification of dionin in "alkaline" chloroform extract?
Erdmann’s *
Marqui’s
Dragendorff’s
Mercury (II) chloride
Morpholine and sodium nitroprusside
Which reaction does not used for identification of dionin in "alkaline" chloroform extract?
Mercury (I) chloride *
Scheibler’s
Mandelin’s
Marqui’s
Morpholine and sodium nitroprusside
Which reaction does not used for identification of dionin in "alkaline" chloroform extract?
Iron (III) chloride *
Scheibler’s
Mandelin’s
Marqui’s
Dragendorff’s
Choose reagent for detection of ethylmorphine:
Dragendorff’s, mercury (II) chloride, Marqui’s *
Scheibler’s, Marqui’s, Erdmann’s
Marqui’s, Erdmann’s, Mandelin’s
Dragendorff’s, mercury (I) chloride, Mandelin’s
correct answer is absent
Papaverine is used in medicine as ...:
Spasmolytic *
Antitussive
Analgesic
It is never used in medicine
Antiasthmatic
Papaverine used in medicine as ...:
Vasodilating *
B.
C.
D.
E.
Antitussive
Analgesic
It is never used in medicine
Antiasthmatic
584.
Which reagent can be used for detection of papaverine by microcrystaloscopic reaction?
A. Cadmium chloride *
B. This reaction is not
C. Dragendorff’s
D. Picric acid
E. Mercury chloride
585.
"Alkaline" chloroform extract containing papaverine is investigated by Pellagri reaction.
... color of chloroform layer was observed.
A. Does not give this reaction *
B. Green
C. Blue
D. Purple-red
E. Yellow
586.
"Alkaline" chloroform extract containing papaverine is investigated by Pellagri reaction. It
is observed ... color of ether layer.
A. Do not give this reaction *
B. Purple-red
C. Green
D. Blue
E. Yellow
587.
Which color does appear in reaction of dry residue of "alkaline" chloroform extract
containing papaverine, with Mandelin’s reagent?
A. Blue-violet *
B. Violet
C. Green
D. Red
E. Yellow fluorescence
588.
Which color does appear in reaction of dry residue of "alkaline" chloroform extract
containing papaverine, with Marqui’s reagent?
A. Violet *
B. Blue-violet
C. Green
D. Red
E. Yellow fluorescence
589.
Which color does appear in reaction of dry residue of "alkaline" chloroform extract
containing papaverine, with Frohdes’s reagent?
A. Green *
B. Blue-violet
C. Purple
D. Red
E. Yellow fluorescence
590.
Which color does appear in reaction of dry residue of "alkaline" chloroform extract
containing papaverine, with Erdmann’s reagent?
A. Red *
B. Blue-violet
C. Purple
D. Green
E. Does not give the reaction
591.
To dry residue from "alkaline" chloroform extract containing papaverine, add acetic
anhydride in the presence of concentrated sulphuric acid and appearance of ... color is observed.
A. Yellow-green fluorescence *
B. Green
C. Blue-violet
D. Violet
E. Red
592.
Choose reagent for detection of papaverine:
A. Dragendorff’s, cadmium chloride, Marqui’s *
B. Scheibler’s, Marqui’s, Pellagri
C. Marqui’s, Erdmann’s, cadmium iodide
D. Dragendorff’s, mercury (I) chloride, Mandelin’s
E. Pellagri, Frohdes’s, Marqui’s
593.
Choose reagent for detection of papaverine:
A. Dragendorff’s, Erdmann’s, Marqui’s *
B. Scheibler’s, Marqui’s, Pellagri
C. Marqui’s, Scheibler’s, cadmium iodide
D. Zonnenstein’s, mercury (I) chloride, Mandelin’s
E. Pellagri, Frohdes’s, Marqui’s
594.
Choose reagent which can be used in microcrystaloscopic reaction at analysis on
promedol?
A. Picric acid *
B. This reaction is not
C. Dragendorff’s
D. Mercury chloride
E. Cadmium chloride
595.
"Alkaline" chloroform extract containing promedol is investigated by Pellagri reaction. It
is observed ... color of ether layer.
A. Do not give this reaction *
B. Green
C. Blue
D. Purple-red
E. Yellow
596.
Which color of ether layer will be in Pellagri reaction on "alkaline" chloroform extract
containing promedol?
A. Does not give this reaction *
B. Purple-red
C. Green
D. Blue
E. Yellow
597.
Which color reaction can be used for detection of promedol in "alkaline" chloroform
extract?
A. With reagent Marqui’s *
B. With reagent Mandelin’s
C. With picric acid
D. With reagent Dragendorff’s
E. Promedol doesn’t give color reaction
598.
Which microcrystaloscopic reaction can be used for detection of promedol in "alkaline"
chloroform extract?
A. With picric acid *
B. With reagent Marqui’s
C. With reagent Mandelin’s
D. With reagent Dragendorff’s
E. Promedol doesn’t give microcrystaloscopic reaction
599.
Choose reagents for promedol detection in "alkaline" chloroform extract.
A. Picric acid, Dragendorff’s reagent, Marqui’s reagent *
B. Marqui’s, Mandelin’s, Frohdes’s reagents
C. Marqui’s, Erdmann’s, Zonnenstein’s reagents
D. Dragendorff’s, Bushard’s, Mandelin’s reagents
E. Picric acid, Marqui’s, Mandelin’s reagents
600.
Which reagent can be used for color reactions on promedol?
A. Only Marqui’s *
B. Marqui’s or Dragendorff’s
C. Only picric acid
D. Picric acid or Dragendorff’s reagent
E. Marqui’s or Mandelin’s
601.
Which reagent can be used for microcrystaloscopic reactions on promedol?
A. Only picric acid *
B. Only Marqui’s
C. Marqui’s or Dragendorff’s
D. Picric acid or reagent Dragendorff’s
E. Marqui’s or Mandelin’s
602.
Appearance of ... color is observed in reaction of "alkaline" chloroform extract containing
promedol with Marqui’s reagents.
A. purple-red turns into brown-violet *
B. does not give this reaction
C. yellow prismatic crystals
D. violet, which turns into red-green
E. red
603.
Appearance of ... color is observed in reaction of "alkaline" chloroform extract containing
promedol with Frohdes’s reagents.
A. This reaction is absent *
B. Purple-red color, which becomes brown-purple
C. Yellow prismatic crystals
D. Violet, which turns into red-green
E. Red
604.
Appearance of ... is observed in reaction of "alkaline" chloroform extract containing
promedol with picric acid.
A. Yellow prismatic crystals *
B. Purple-red color, which becomes brown-purple
C. This reaction is absent
D. Violet, which turns into red-green
E. Red
605.
Pellagri reaction can be used for detection:
A. Apomorphine and heroin *
B. Promedol and morphine
C. Papaverine and codeine
D. Cocaine and papaverine
E. Anyone
606.
Pellagri reaction can be used for detection:
A. Apomorphine and morphine *
B. Promedol and codeine
C. Papaverine and heroin
D. Cocaine and dionin
E. Anyone
607.
Pellagri reaction can be used for detection:
A. Apomorphine and codeine *
B. Promedol and morphine
C. Papaverine and dionin
D. Cocaine and heroin
E. The correct answer is absent
608.
Pellagri reaction can be used for detection:
A. Apomorphine, dionin *
B. Promedol, cocaine
C. Papaverine, promedol
D. Cocaine, meconin
E. Anyone
609.
Red color is observed in reaction of dry residue "alkaline" chloroform extract with
Erdmann’s reagent. Which poison can be present in extract?
A. Apomorphine or papaverine *
B. Morphine or papaverine
C. Cocaine and codeine
D. Dionin or Apomorphine
E. Ethylmorphine or papaverine
610.
Blue color is observed in reaction of dry residue "alkaline" chloroform extract with iron
(III) chloride. Which poison can be present in extract?
A. Apomorphine or morphine *
B. Morphine or papaverine
C. Cocaine and codeine
D. Dionin or Apomorphine
E. Ethylmorphine or papaverine
611.
Violet color is observed in reaction of dry residue "alkaline" chloroform extract with
Mandelin’s reagent. Which poison can be present in extract?
A. Morphine or heroin *
B. Codeine or morphine
C. Only morphine
D. Only dionin
E. Only ethylmorphine
612.
Choose a general method for isolation of morphine from biological material:
A. Vasilyeva’s *
B. Kramarenko’s
C. Salomatin’s
D. Valov’s
E. Izotov’s
613.
Choose a general method for isolation of morphine from biological material:
A. Stas-Otto’s *
B. Kramarenko’s
C. Salomatin’s
D. Valov’s
E. Izotov’s
614.
Choose specific method for isolation morphine from biological material:
A. Kramarenko’s *
B. Vasilyeva’s
C. Stas-Otto’s
D. Valov’s
E. Izotov’s
615.
Choose a method of isolating specific codeine from biological material:
A. Kramarenko’s *
B. Vasilyeva’s
C. Stas-Otto’s
D. Valov’s
E. Izotov’s
616.
Choose a general method for dionin isolation from biological material:
A. Vasilyeva *
B. Kramarenko’s
C. Salomatin’s
D. Valov’s
E. Izotov’s
617.
Choose a general method for dionin isolation from biological material:
A. Stas-Otto’s *
B. Kramarenko’s
C. Salomatin’s
D. Valov’s
E. Izotov’s
618.
Choose specific method for dionin isolation from biological material:
A. Kramarenko’s *
B. Vasilyeva’s
C. Stas-Otto’s
D. Valov’s
E. Izotov’s
619.
Which reagent can be used in the analysis of hashish?
A. Marqui’s
B. Frohdes’s
C. Mandelin’s
D. Duckenay *
E. Erdmann’s
620.
To identify of securinine in "alkaline" chloroform extract, chemist-toxicologist used
microcrystaloscopic reaction. Choose reagent of this reaction.
A. with Bushard’s reagents *
B. with cobalt thiocyanate
C. with resorcinol and sulfuric acid
D. with Dragendorff’s reagents
E. with Zonnenstein’s reagents
621.
Vitali-Morena reaction is used for the qualitative detection of some toxic substances. For
identification of which toxins is used this reaction?
A. strychnine, atropine, scopolamine *
B. morphine, codeine, dionin
C. pachycarpine, nicotine, anabasine
D. quinine, quinidine
E. promethazine, diazolin, chlorpromazine
622.
Which substance has antihypertensive properties?
A. Novocaine
B. Strychnine
C. Brucine
D. Tetracaine
E. Reserpine *
623.
To identify aconitine in "alkaline" chloroform extract, chemist-toxicologist used
microcrystaloscopic reaction. Choose reagent of this reaction.
A. with potassium permanganate *
B. with cobalt thiocyanate
C. with resorcinol and sulfuric acid
D. with Dragendorff’s reagents
E. with Zonnenstein’s reagents
624.
Which reagent can be used in the analysis of hashish?
A. Marqui’s
B. Pauli *
C. Mandelin’s
D. Frohdes’s
E. Erdmann’s
625.
Which is the alkaloid with toxic properties contained in Caucasian snowdrop, Voronov’s
snowdrop?
A. Atropine
B. Codeine
C. Ephedrine
D. Cocaine
E. Galantamine *
626.
For detection of which alkaloid can you use pharmacological tests?
A. Morphine
B.
C.
D.
E.
Strychnine *
Codeine
Ephedrine
Brucine
627.
Blue-violet color, which goes into the red, is observed in reaction of dry residue "alkaline"
chloroform extract with Marqui’s reagent. Which poison can be present in extract?
A. Strychnine *
B. Brucine
C. Reserpine
D. Galantamine
E. Promedol
628.
To identify which toxins can be used Mandelin’s reagent?
A. Strychnine *
B. Aconitine
C. Promedol
D. Novocaine
E. Securinine
629.
To identify which toxins can be used potassium dichromate?
A. Strychnine *
B. Aconitine
C. Promedol
D. Novocaine
E. Securinine
630.
Appearance of violet streams was observed in reaction of dry residue from "alkaline"
chloroform extract with concentrated sulfuric acid and potassium dichromate. The presence of
which poison can you speak?
A. Strychnine *
B. Brucine
C. Reserpine
D. Galantamine
E. Promedol
631.
"Alkaline" chloroform extract is given reaction Vitali-Morena. Red color is observed.
Which poison is present in the extract?
A. Strychnine *
B. Novocaine
C. Procainamide
D. Atropine
E. Dionin
632.
Mercury (II) chloride as color reagent is used for detection of which poison?
A. Strychnine *
B. Novocaine
C. Procainamide
D. Atropine
E. Tetracaine
633.
Choose reagent for strychnine detection by microcrystaloscopic reaction.
A. Picric acid *
B. Dragendorff’s
C. This reaction is absent
D. Bushard’s
E. Mercury (II) chloride
634.
Which contains the alkaloid emetic nut?
A. Strychnine *
B. Reserpine
C. Aconitine
D. Galantamine
E. Securinine
635.
There was poisoned by nux vomica infusion. Which alkaloid is necessary to detect in
excract from biological material?
A. Strychnine and Brucine *
B. Reserpine
C. Brucine
D. Galantamine
E. Securinine
636.
Which alkaloid does contain in of nux vomica?
A. Brucine *
B. Reserpine
C. Aconitine
D. Galantamine
E. Securinine
637.
Dry recidue of "alkaline" chloroform extract containing Brucine with reagents Mandelin’s
gives ...:
A. Red color, which turned into a yellow *
B. Blue-violet color, which turned into red
C. Violet streams
D. Red color
E. Do not give reaction with this reagent
638.
Expert toxicologist observed formation of ... in reaction of "alkaline" chloroform extract
containing Brucine with Marqui’s reagents:
A. Do not give reaction with this reagent *
B. Red color, which turned into a yellow
C. Blue-violet color, which turned into red
D. Purple streams
E. Red color
639.
Expert toxicologist observed formation of ... in reaction of "alkaline" chloroform extract
containing Brucine with Frohdes’s reagents:
A. Red color, which turned into a yellow *
B. Blue-violet color, which turned into red
C. Purple streams
D. Red color
E. Do not give reaction with this reagent
640.
Expert toxicologist observed formation of ... in reaction of "alkaline" chloroform extract
containing Brucine with Erdmann’s reagents:
A. Red color, which turned into a yellow *
B. Blue-violet color, which turned into red
C. Purple streams
D. Red color
E. Do not give reaction with this reagent
641.
Red color, which becomes yellow, is observed in reaction of dry residue "alkaline"
chloroform extract with Erdmann’s reagent. Which poison can be present in extract?
A. Brucine *
B. Strychnine
C. Reserpine
D. Galantamine
E. Promedol
642.
Choose reagent for detection of Brucine:
A. Mandelin’s, Frohdes’s, Erdmann’s, Dragendorff’s *
B. Marqui’s, Dragendorff’s, Scheibler’s, Frohdes’s
C. Erdmann’s, Mandelin’s, potassium dichromate, vanillin
D. Dragendorff’s, sodium nitrite, Busharda, cobalt rodanid
E. Picric acid, Marqui’s, Mandelin’s, Frohdes’s
643.
Which alkaloid does contain in Rauwolfia serpentina and may be caused of poisoning?
A. Reserpine *
B.
C.
D.
E.
644.
A.
B.
C.
D.
E.
645.
A.
B.
C.
D.
E.
646.
A.
B.
C.
D.
E.
647.
A.
B.
C.
D.
E.
648.
A.
B.
C.
D.
E.
649.
A.
B.
C.
D.
E.
650.
A.
B.
C.
D.
E.
651.
A.
B.
C.
D.
E.
652.
A.
B.
C.
Brucine
Aconitine
Galantamine
Securinine
In case of Adelphane overdose, the biological objects are analyzed on presence of:
Reserpine *
Brucine
Aconitine
Galantamine
Securinine
In case of Crystepin overdose, the biological objects are analyzed on presence of:
Reserpine *
Brucine
Aconitine
Galantamine
Securinine
This alkaloid has hypotensive properties. What is an alkaloid?
Reserpine *
Brucine
Aconitine
Galantamine
Securinine
This alkaloid is used in medicine at toxicosis of pregnancy. What is an alkaloid?
Reserpine *
Chlorpromazine
Aconitine
Galantamine
Securinine
Choose a product of reserpine metabolism in the body:
Methanol *
Ethanol
Dioxybrucine
Dimetoxybenzoic acid
benzoic acid
Which reagent can be used for reserpine detection by microcrystaloscopic reaction?
Mercury (II) chloride *
Picric acid
Dragendorff’s
This reaction is absent
Bushard’s
Potassium dichromate can be used for detection of this poison.
Reserpine *
Aconitine
Promedol
Novocaine
Securinine
Which reaction does not give reserpine?
Marqui’s *
Frohdes’s
Erdmann’s
Dragendorff’s
Scheibler’s
Which reaction does not give reserpine?
Coblt thiocyanate *
Frohdes’s
Erdmann’s
D. Mandelin’s
E. Scheibler’s
653.
Which reaction does not give reserpine?
A. Tin (II) chloride *
B. Frohdes’s
C. Erdmann’s
D. Dragendorff’s
E. Mercury (II) chloride
654.
Which substance has antihypertensive properties?
A. Reserpine *
B. novocaine
C. strychnine
D. Brucine
E. tetracaine
655.
Which is alkaloid used at trigeminal neuralgia, arthritis in medicine?
A. Aconitine *
B. Reserpine
C. Brucine
D. Galantamine
E. Securinine
656.
What is the reagent can be used for detection of aconitine by microcrystaloscopic reaction?
A. Potassium permanganate *
B. Dragendorff’s reagent
C. This reaction is absent
D. Cobalt-thiocyanate reagent
E. Mercury (II) chloride
657.
What is the reagent can be used for detection of aconitine by color reaction?
A. Cobalt-thiocyanate reagent *
B. Potassium permanganate
C. Dragendorff’s reagent
D. This reaction is absent
E. Mercury (II) chloride
658.
What is the reagent can be used for detection of aconitine by color reaction?
A. Resorcinol in the presence of sulfuric acid *
B. Potassium permanganate
C. Dragendorff’s reagent
D. This reaction is absent
E. Mercury (II) chloride
659.
Which substance can be detected with resorcinol?
A. Aconitine *
B. Brucine
C. Galantamine
D. Securinine
E. This reagent is abset
660.
What alkaloid is used in medicine for intestinal atony and urinary bladder?
A. Securinine *
B. Aconitine
C. Reserpine
D. Brucine
E. Galantamine
661.
Diazotized sulfanilic acid is added to dry residue from "alkaline" chloroform extract
containing galantamine. ….. was observed.
A. Pink color, which becomes red *
B. Violet rectangles
C. Blue color chloroform layer
D. Blue-purple
E. Green color, which turned into a blue
662.
Marqui’s reagent is added to dry residue from "alkaline" chloroform extract containing
galantamine. ….. was observed.
A. Blue-violet *
B. Pink color, which turns into the red
C. Violet rectangles
D. Blue color chloroform layer
E. Green color, which turned into a blue
663.
Frohdes’s reagent is added to dry residue from "alkaline" chloroform extract containing
galantamine. ….. was observed.
A. Green color, which turns in blue *
B. Pink color, which turns into the red
C. Violet rectangles
D. Blue color chloroform layer
E. Blue-purple
664.
Choose reagent which can be used for detection of securinine by microcrystaloscopic
reaction?
A. Bushard’s reagent *
B. Picric acid
C. Dragendorff’s reagent
D. This reaction is absent
E. Mercury (II) chloride
665.
Which reagent can be used for securinine detection by microcrystaloscopic reaction?
A. Iron (III) chloride and potassium iodide *
B. Picric acid
C. Dragendorff’s reagent
D. This reaction is not
E. Mercury (II) chloride
666.
Which color reagent can be used for securinine detection?
A. This reaction is absent *
B. Marqui’s
C. Busharda
D. Mandelin’s
E. Frohdes’s
667.
Which color reagent can be used for securinine detection?
A. This reaction is absent *
B. Erdmann’s
C. Busharda
D. Iron (III) chloride and potassium iodide
E. Frohdes’s
668.
Choose the drug substance contained in hashish:
A. α-THC *
B. β-hexahidrocanabinoil
C. marijuana
D. trichomes
E. anasha
669.
Choose the drug substance contained in hashish:
A. β-THC *
B. α-heksahidrokanabinoil
C. marijuana
D. trichomes
E. anasha
670.
Microscopic investigation is used in the analysis of cigarettes containing Indian cannabis.
To do this:
A. Boil cigarettes with solution of chloral hydrate *
B. Do reaction with Dragendorff’s reagent
C. This method is not used
D. Do reaction with sodium nitrite
E. Boil cigarettes with a solution of sulfuric acid
671.
Cigarettes are boiled with a solution of chloral hydrate in a microscopic investigation. Then
can be observed … in the microscope:
A. hairs in the form of short retorts *
B. needle crystals
C. prismatic crystals
D. this method is not used
E. hairs in the form of short bulbs
672.
Which reaction is used for the proof of the presence of Cannabinoids in hashish?
A. With Bucke reagent *
B. With Boucle reagent
C. With Dragendorff’s reagent
D. With Ducke reagent
E. With Scheibler’s reagent
673.
Which reaction is used for the proof of the presence of Cannabinoids in hashish?
A. With Duckenay reagent *
B. With Boucle reagent
C. With Dragendorff’s reagent
D. With Burke reagent
E. With Scheibler’s reagent
674.
Which reaction is used for the proof of the presence of Cannabinoids in hashish?
A. With Pauli reagent *
B. With Boucle reagent
C. With Dragendorff’s reagent
D. With Ducke reagent
E. With Scheibler’s reagent
675.
Choose developer for Cannabinoids detection in TLC:
A. Pauli reagent *
B. Dragendorff’s reagent
C. Duckenay reagent
D. Bucke reagent
E. Iron (III) chloride
676.
Novocaine is derived:
A. p-aminobenzoic acids *
B. Pyrazolone
C. Phenothiazine
D. Pyridine
E. Quinoline
677.
Novocaine is metabolized in the body by .... (... phase biotransformation)?
A. Hydrolysis, I *
B. Hydrolysis, II
C. Oxidation, I
D. Redaction, I
E. Acetylation, II
678.
Which reaction can be used for difference of tetracaine and procainamide:
A. with sodium nitrite *
B. with Zonnenstein’s reagent
C. precipitation
D. with Scheibler’s reagent
E. with picric acid
679.
Which is the reagent can be used for microcrystaloscopic reaction on novocaine?
A. Dragendorff’s *
B. Erdmann’s
C. Zonnenstein’s
D. Scheibler’s
E. Frohdes’s
680.
The method of thin layer chromatography is used to detect poisons. Which are derivatives
can be detected by iron (III) chloride solution on plate?
A. Phenothiazine *
B. 1,4-benzodiazepines
C. Indole
D. Quinoline
E. Purine
681.
Expert toxicologist observed formation of crystals ... in reaction of "alkaline" chloroform
extract containing novocaine with reagents Dragendorff’s.
A. Needle *
B. Rhombic
C. Rectangular
D. Prismatic
E. Cubic
682.
Reaction Vitali-Morena was done with "alkaline" chloroform extract. Orange-yellow color
was observed. What poison is present in the extract?
A. Novocaine *
B. Strychnine
C. Procainamide
D. Anabasine
E. Dionin
683.
Which is the reagent can be used for the detection of novocaine by microcrystaloscopic
reaction?
A. Dragendorff’s reagent *
B. Picric acid
C. This reaction is absent
D. Busharda’s reagent
E. Mercury (II) chloride
684.
Which is the reagent can be used for the detection of novocaine by microcrystaloscopic
reaction?
A. Tetrabromauratic acid *
B. Picric acid
C. This reaction is absent
D. Bushard’s reagent
E. Mercury (II) chloride
685.
Novocainamide is metabolized in the body by .... (... phase biotransformation).
A. Acetylation, II *
B. Hydrolysis, I
C. Hydrolysis, II
D. Oxidation I
E. Reduction, I
686.
Which color is observed in Vitali-Morena reaction with "alkaline" chloroform extract
containing novocainamide?
A. Orange-brown *
B. Pink
C. Red
D. Blood-red
E. This reagent isn’t used
687.
Reaction of azo-dye formation can be used for novocainamide detection with an alkaline
solution of 2-naphthol. ... color appears.
A. Red-orange *
B. Yellow-orange
C. Light violet
D. Blood-red
E. This reagent isn’t used
688.
Reaction Vitali-Morena was done with "alkaline" chloroform extract. Orange-brown color
was observed. What poison is present in the extract?
A. Procainamide *
B. Novocaine
C. Tetracaine
D. Atropine
E. Scopolamine
689.
Substance that is more pharmacologically active is formed at metabolism of
novocainamide. What is the metabolite?
A. N-acetylnovocainamide *
B. p-aminobenzoic acid
C. diethylaminoethanol
D. N-acethyl-p-aminobenzoic acid
E. glucuronide of p-aminobenzoic acid
690.
Expert toxicologist observed formation of ... crystals in reaction of "alkaline" chloroform
extract containing novocainamide with reagents Dragendorff’s.
A. Diamond *
B. Needle
C. Rectangular
D. Prismatic
E. Cubic
691.
What is the reagent can be used for the detection of novocainamide by microcrystaloscopic
reaction?
A. Dragendorff’s reagent*
B. Picric acid
C. This reaction is absent
D. Bushard’s reagent
E. Mercury (II) chloride
692.
What is the reagent can be used for the detection of novocainamide by microcrystaloscopic
reaction?
A. Hexachlorplatinatic acid *
B. Picric acid
C. This reaction is absent
D. Bushard’s reagent
E. Mercury (II) chloride
693.
In a Vitali-Morena reaction with "alkaline" chloroform extract containing dicaine, ... color
is observed:
A. Blood-red *
B. Yellow-orange
C. Light violet
D. Red
E. This reagent is used
694.
Which reaction does not give dicaine?
A. Azo-dye formation *
B. With Dragendorff’s reagent
C. With sodium nitrite
D. Vitali-Morena
E. With Scheibler’s reagent
695.
Vitali-Morena reaction gives positive result. Which poisons are present in the extract?
A. Strychnine or atropine *
B. Novocaine or securinine
C. Procainamide or aconitine
D. Atropine or reserpine
E. Tetracaineor Brucine
696.
Vitali-Morena reaction gives positive result. Which poisons are present in the extract?
A.
B.
C.
D.
E.
Strychnine or scopolamine *
Novocaine or securinine
Procainamide or aconitine
Atropine or reserpine
Tetracaine or Brucine
697.
Vitali-Morena reaction is done with "alkaline" chloroform extract. It observed
appearance of the corresponding color. Which poisons can be present in the extract?
A. Strychnine and novocaine *
B. Novocaine or securinine
C. Procainamide or aconitine
D. Atropine or reserpine
E. Tetracaine or brucine
698.
Vitali-Morena reaction is done with "alkaline" chloroform extract. It observed
appearance of the corresponding color. Which poisons can be present in the extract?
A. Strychnine or tetracaine*
B. Novocaine or securinine
C. Procainamide or aconitine
D. Atropine or reserpine
E. Tetracaine or brucine
699.
Vitali-Morena reaction is done with "alkaline" chloroform extract. It observed
appearance of the corresponding color. Which poisons can be present in the extract?
A. Strychnine or novocainamide *
B. Novocaine or securinine
C. Procainamide or aconitine
D. Atropine or reserpine
E. Tetracaine or brucine
700.
Potassium dichromate gives positive result. Which poisons are present in the extract?
A. Strychnine or reserpine *
B. Aconitine or strychnine
C. Promedol or novocaine
D. Novocaine or reserpine
E. Securinine or Brucine
701.
Vitali-Morena reaction is done with "alkaline" chloroform extract. It observed
appearance of the corresponding color. Which poisons can be present in the extract?
A. Novocaine or atropine *
B. Strychnine or galantamine
C. Procainamide or aconitine
D. Atropine or reserpine
E. Tetracaine or Brucine
702.
Vitali-Morena reaction is done with "alkaline" chloroform extract. It observed
appearance of the corresponding color. Which poisons can be present in the extract?
A. Novocaine or scopolamine *
B. Strychnine or galantamine
C. Procainamide or aconitine
D. Atropine or reserpine
E. Tetracaine or brucine
703.
Vitali-Morena reaction is done with "alkaline" chloroform extract. It observed
appearance of the corresponding color. Which poisons can be present in the extract?
A. Novocaine or tetracaine*
B. Strychnine or galantamine
C. Procainamide or aconitine
D. Atropine or reserpine
E. Tetracaine or brucine
704.
Vitali-Morena reaction is done with "alkaline" chloroform extract. It observed
appearance of the corresponding color. Which poisons can be present in the extract?
A. Novocaine or Procainamide *
the
the
the
the
the
the
the
B.
C.
D.
E.
705.
A.
B.
C.
D.
E.
706.
A.
B.
C.
D.
E.
707.
A.
B.
C.
D.
E.
708.
A.
B.
C.
D.
E.
709.
A.
B.
C.
D.
E.
710.
A.
B.
C.
D.
E.
711.
A.
B.
C.
D.
E.
712.
A.
B.
C.
D.
E.
713.
A.
B.
C.
Strychnine or galantamine
Procainamide or aconitine
Atropine or reserpine
Tetracaine or brucine
Vitali-Morena reaction gives positive result. Which poisons are present in the extract?
Procainamide or atropine *
Strychnine or galantamine
Procainamide or aconitine
Atropine or reserpine
Tetracaine or Brucine
Vitali-Morena reaction gives positive result. Which poisons are present in the extract?
Procainamide or scopolamine *
Strychnine or galantamine
Procainamide or aconitine
Atropine or reserpine
Tetracaine or Brucine
Vitali-Morena reaction gives positive result. Which poisons are present in the extract?
Procainamide or tetracaine*
Strychnine or galantamine
Procainamide or aconitine
Atropine or reserpine
Tetracaine or Brucine
Vitali-Morena reaction gives positive result. Which poisons are present in the extract?
Tetracaineor atropine *
Strychnine or galantamine
Procainamide or aconitine
Atropine or reserpine
Tetracaine or Brucine
Vitali-Morena reaction gives positive result. Which poisons are present in the extract?
Tetracaineor scopolamine *
Strychnine or galantamine
Procainamide or aconitine
Atropine or reserpine
Tetracaine or Brucine
Vitali-Morena reaction gives positive result. Which poisons are present in the extract?
Dicaine, atropine, scopolamine *
Strychnine, galantamine, atropine
Procainamide, aconitine, novocaine
Atropine, reserpine, strychnine
Dicaine, Brucine, scopolamine
Vitali-Morena reaction gives positive result. Which poisons are present in the extract?
Dicaine, atropine, novocaine *
Strychnine, galantamine, atropine
Procainamide, aconitine, novocaine
Atropine, reserpine, strychnine
Dicaine, Brucine, scopolamine
Vitali-Morena reaction gives positive result. Which poisons are present in the extract?
Dicaine, atropine, strychnine *
Strychnine, galantamine, atropine
Procainamide, aconitine, novocaine
Atropine, reserpine, strychnine
Dicaine, Brucine, scopolamine
Vitali-Morena reaction gives positive result. Which poisons are present in the extract?
Dicaine, atropine, novocainamide *
Strychnine, galantamine, atropine
Procainamide, aconitine, novocaine
D. Atropine, reserpine, strychnine
E. Dicaine, Brucine, scopolamine
714.
Vitali-Morena reaction gives positive result. Which poisons are present in the extract?
A. Dicaine, novocaine, scopolamine *
B. Strychnine, galantamine, atropine
C. Procainamide, aconitine, novocaine
D. Atropine, reserpine, strychnine
E. Dicaine, Brucine, scopolamine
715.
Vitali-Morena reaction gives positive result. Which poisons are present in the extract?
A. Dicaine, novocaine *
B. Strychnine, galantamine, atropine
C. Procainamide, aconitine, novocaine
D. Atropine, reserpine, strychnine
E. Dicaine, Brucine, scopolamine
716.
Vitali-Morena reaction gives positive result. Which poisons are present in the extract?
A. Dicaine, novocaine, strychnine *
B. Strychnine, galantamine, atropine
C. Procainamide, aconitine, novocaine
D. Atropine, reserpine, strychnine
E. Dicaine, Brucine, scopolamine
717.
There was acute poisoning of neuroleptics. Which reagent is used for preliminary detection
of Phenothiazine derivatives in urine?
A. FPN *
B. Marme’s
C. Dragendorff’s
D. Brattona-Marshall
E. Ninhydrin in acetone
718.
To 1 ml urine added 1 ml of FPN. It observed the appearance of pink color. Which
substance is present in the urine?
A. Codeine
B. Chlordiazepoxide
C. Analgin
D. * Chlorpromazine
E. Caffeine
719.
For isolation of chlorpromazine from biological material, expert toxicologist used specific
method of isolation:
A. Salomatin’s *
B. Izotov’s
C. Valov’s
D. Kramarenko’s
E. Vasilyeva’s
720.
For isolation of aminazine from biological material, expert toxicologist chose specific
isolation method:
A. Salomatin’s *
B. Izotov’s
C. Valov’s
D. Kramarenko’s
E. Vasilyeva’s
721.
Concentrated sulfuric acid is added to dry residue from "alkaline" chloroform extract.
Purple-red color is observed. Which poison is present in the extract?
A. * Chlorpromazine
B. Promethazine
C. Oxazepam
D. Tisercin
E. Nitrazepam
722.
Concentrated sulfuric acid is added to dry residue from "alkaline" chloroform extract
containing aminazine. This color appears.
A. Puple-red color *
B. Reddish color, which becomes bright red at heating
C. Reddish-purple color
D. Green color, which turns into purple
E. Pink, which becomes reddish-violet
723.
Concentrated nitric acid is added to dry residue from "alkaline" chloroform extract. Redviolet color is observed. Which poison is present in the extract?
A. * aminazine
B. Promethazine
C. Oxazepam
D. Tisercin
E. Nitrazepam
724.
Concentrated nitric acid is added to dry residue from "alkaline" chloroform extract
containing aminazine. This color appears.
A. Red-violet color, which quickly disappears *
B. Red color
C. Reddish color, which becomes bright red at heating
D. Green color, which turns into violet
E. Pink, which becomes reddish-violet
725.
Concentrated hydrochloric acid is added to dry residue from "alkaline" chloroform
extract. Pinkish-violet color is observed (it turns into red-violet color). Which poison is present in
the extract?
A. * Chlorpromazine
B. Promethazine
C. Oxazepam
D. Tisercin
E. Nitrazepam
726.
Concentrated hydrochloric acid is added to dry residue from "alkaline" chloroform
extract containing chlorpromazine. This color appears.
A. Pinkish-violet, which becomes red-violet *
B. red color
C. Reddish color, which becomes bright red at heating
D. Reddish-purple color
E. Green color, which turns into purple
727.
Marqui’s reagent is added to dry residue from "alkaline" chloroform extract. Red color is
observed. Which poison is present in the extract?
A. * Aminazine
B. Promethazine
C. Oxazepam
D. Tisercin
E. Nitrazepam
728.
Marqui’s reagent is added to dry residue from "alkaline" chloroform extract containing
aminazine. This color appears.
A. red color *
B. puple color
C. Reddish color, which becomes bright red at heating
D. Bluish-red color
E. Green color, which turns into purple
729.
Which reaction isn’t used for detection of aminazine?
A. Frohdes’s *
B. Marqui’s
C. Mandelin’s
D. Concentrated sulfuric acid
E. Bromine water
730.
What reaction is used to detect chlorpromazine?
A. Diazotization *
B. Marqui’s
C. Mandelin’s
D. Concentrated sulfuric acid
E. Bromine water
731.
Promethazine is metabolized in the body by:
A. Oxidation of sulfur atom, I phase of biotransformation *
B. Hydrolysis; I phase of biotransformation
C. Hydroxylation on the aromatic ring, II phase of biotransformation
D. Oxidation of nitrogen atom, I phase of biotransformation
E. Not metabolized
732.
When you receive the body undergoes metabolism promethazine:
A. O-demethylation, I phase of biotransformation *
B. Oxidation of sulfur atom, II phase of biotransformation
C. Hydrolysis; I phase of biotransformation
D. Oxidation of nitrogen atom, I phase of biotransformation
E. Not metabolized
733.
Promethazine hydrochloride is:
A. White powder, which becomes blue on air *
B. White crystalline powder, insoluble in water
C. White with cream coloured fine crystalline powder which darkens on light
D. Yellow crystalline powder, insoluble in water
E. Light yellow crystalline powder, insoluble in water
734.
Which actions don’t have promethazine?
A. Muscle-relaxing *
B. Hypnotic
C. Antihistamines
D. Sedative
E. Antiemetic
735.
Reaction Vitali-Morena is useed to identification of this "drug".
A. Diprazine *
B. Chlorpromazine
C. Oxazepam
D. Tisercin
E. Nitrazepam
736.
Which color does appear in reaction Vitali-Morena with diprazine?
A. Red, which becomes yellow *
B. Green
C. Yellow, which becomes violet
D. Blue
E. This reactions do not use
737.
Reaction Vitali-Morena is useed to identification of this "drug".
A. Pipolphen *
B. Chlorpromazine
C. Tazepam
D. Levomepromazine
E. Radedorm
738.
Which color does appear in reaction Vitali-Morena with pipolphen?
A. Red, which becomes yellow *
B. Green
C. Yellow, which becomes violet
D. Blue
E. This reactions do not use
739.
Marqui’s reagent is added to dry residue from "alkaline" chloroform extract containing
tisercin. This appearance is observed:
A.
B.
C.
D.
E.
Bluish-red color *
red color
puple color
Reddish color, which becomes bright red at heating
Green color, which turns into purple
740.
Frohdes’s reagent is added to dry residue from "alkaline" chloroform extract containing
tisercin. This appearance is observed:
A. Bluish-red color *
B. red color
C. puple color
D. Reddish color, which becomes bright red at heating
E. Green color, which turns into purple
741.
Marqui’s reagent is added to dry residue from "alkaline" chloroform extract containing
levomepromazine. This appearance is observed:
A. Bluish-red color *
B. red color
C. puple color
D. Reddish color, which becomes bright red at heating
E. Green color, which turns into purple
742.
Which reaction is used to detect tisercin?
A. Marqui’s *
B. Bromine water
C. Vital-Morena
D. Diazotization
E. Concentrated sulfuric acid
743.
Which reaction is used to detect tisercin?
A. Mandelin’s *
B. Bromine water
C. Vitali-Morena
D. Diazotization
E. Concentrated sulfuric acid
744.
Which reaction is used to detect tisercin?
A. Frohdes’s *
B. Bromine water
C. Vitali-Morena
D. Diazotization
E. Concentrated sulfuric acid
745.
Choose a synonym (another trade name) of tisercin:
A. Levomepromazine *
B. Chlorpromazine
C. Radedorm
D. Relanium
E. Pipolphen
746.
Which are the names corresponding to one substance?
A. Tisercin and levomepromazine *
B. Tisercin and pipolphen
C. Chlordiazepoxide and sibazon
D. Promethazine and chlorpromazine
E. Nitrazepam and diazepam
747.
Epert toxicologist chose specific method for the isolation of chlordiazepoxide from
biological material:
A. Izotov’s *
B. Salomatin’s
C. Valov’s
D. Kramarenko’s
E. Vasilyeva’s
748.
Epert toxicologist chose specific method for the isolation of elenium from biological
material:
A. Izotov’s *
B. Salomatin’s
C. Valov’s
D. Kramarenko’s
E. Vasilyeva’s
749.
Marqui’s reagent is used to identification of which 1,4-benzodiazepines?
A. Chlordiazepoxide *
B. Chlorpromazine
C. Diazepam
D. Nitrazepam
E. Oxazepam
750.
Frohdes’s reagent is used to identification of which 1,4-benzodiazepines?
A. Chlordiazepoxide *
B. Chlorpromazine
C. Diazepam
D. Nitrazepam
E. Oxazepam
751.
Vitali-Morena reaction is used to identification of which 1,4-benzodiazepines?
A. Chlordiazepoxide *
B. Chlorpromazine
C. Diazepam
D. Nitrazepam
E. Oxazepam
752.
Marqui’s reagent is added to dry residue from "alkaline" chloroform extract. It observed
the appearance of yellow color. What poison is present in the extract?
A. Chlordiazepoxide *
B. Chlorpromazine
C. Promethazine
D. Nitrazepam
E. The correct answer is absent
753.
Frohdes’s reagent is added to dry residue from "alkaline" chloroform extract. It observed
the appearance of orange color. What poison is present in the extract?
A. Chlordiazepoxide *
B. Chlorpromazine
C. Promethazine
D. Nitrazepam
E. The correct answer is absent
754.
Vitali-Morena reaction is done with dry residue from "alkaline" chloroform extract. It
observed the appearance of yellow color. What poison is present in the extract?
A. Chlordiazepoxide *
B. Atropine
C. Promethazine
D. Strychnine
E. The correct answer is absent
755.
Choose color in reaction of ninhydrin with "alkaline" chloroform extract containing
diazepam.
A. Orange-red *
B. Brown
C. Yellow-brown
D. Blue
E. Do not give this reaction
756.
Which reaction does give diazepam?
A. With ninhydrin *
B. Diazotization
C. With reagent Marqui’s
D. With reagent Frohdes’s
E. The reaction Vitali-Morena
757.
This reaction can be used for the detection of diazepam in the "alkaline" chloroform
extract:
A. With ninhydrin *
B. Diazotization
C. With reagent Marqui’s
D. With reagent Frohdes’s
E. The reaction Vitali-Morena
758.
Choose color in reaction of Marqui’s reagent with "alkaline" chloroform extract
containing diazepam.
A. Orange-red
B. Brown
C. Yellow-brown
D. Blue
E. Do not give this reaction *
759.
Which reaction does not give nitrazepam?
A. Diazotization *
B. With Dragendorff’s reagent
C. With Scheibler’s reagent
D. With Zonnenstein’s reagent
E. With ninhydrin
760.
What reaction is used to detect of nitrazepam metabolite?
A. Diazotization *
B. With Dragendorff’s reagent
C. With Scheibler’s reagent
D. With Zonnenstein’s reagent
E. With ninhydrin
761.
What reaction can be used for detection of metabolic product of radedorm?
A. Diazotization *
B. With Marqui’s reagent
C. With Mandelin’s reagent
D. With iron (III) chloride
E. With ninhydrin
762.
When the reaction ninhydrin the "alkaline" chloroform extract containing nitrazepam,
observed ... color:
A. Yellow-brown *
B. Brown
C. Orange-red
D. Blue
E. Do not give this reaction
763.
What are the names corresponding to one substance?
A. Nitrazepam and radedorm *
B. Tazepam and diazepam
C. Chlordiazepoxide and Relanium
D. Chlordiazepoxide and sibazon
E. Elenium and oxazepam
764.
Nitrazepam - is:
A. Light yellow crystalline powder, insoluble in water *
B. White crystalline powder, soluble in water
C. Blue powder which darkens on light
D. White powder, which becomes blue on light
E. Yellow crystalline powder, soluble in water
765.
Expert toxicologist chose specific method for the isolation of nitrazepam from biological
material.
Izotov’s *
Salomatin’s
Valov’s
Kramarenko’s
Vasilyeva’s
766.
Expert toxicologist chose specific method for the isolation of radedorm from biological
material.
A. Izotov’s *
B. Salomatin’s
C. Valov’s
D. Kramarenko’s
E. Vasilyeva’s
767.
Choose a reagent that can be used to detect and chlorpromazine, and promethazine:
A. Concentrated Sulfuric acid *
B. Concentrated hydrochloric acid
C. Frohdes’s reagent
D. Bromine water
E. Reaction Vitali-Morena
768.
Choose a reagent that can be used to detect and chlorpromazine, and promethazine:
A. Marqui’s reagent*
B. Concentrated hydrochloric acid
C. Frohdes’s reagent
D. Bromine water
E. Reaction Vitali-Morena
769.
Choose a reagent that can be used to detect and chlorpromazine, and promethazine:
A. Mandelin’s reagent *
B. Concentrated hydrochloric acid
C. Frohdes’s reagent
D. Bromine water
E. Reaction Vitali-Morena
770.
Choose a reagent that can be used to detect and tisercin, and promethazine:
A. Frohdes’s reagent *
B. Concentrated acid sulfate
C. Concentrated hydrochloric acid
D. Bromine water
E. Reaction Vitali-Morena
771.
Choose a reagent that can be used to detect and tisercin and promethazine:
A. Marqui’s reagent *
B. Concentrated acid sulfate
C. Concentrated hydrochloric acid
D. Bromine water
E. Reaction Vitali-Morena
772.
Choose a reagent that can be used to detect and tisercin and promethazine:
A. Mandelin’s reagent *
B. Concentrated sulfuric acid
C. Concentrated hydrochloric acid
D. Bromine water
E. Reaction Vitali-Morena
773.
Choose a reagent that can be used to detect and tisercin and chlorpromazine:
A. Marqui’s reagent *
B. Concentrated sulfuric acid
C. Concentrated hydrochloric acid
D. Bromine water
E. Reaction Vitali-Morena
774.
Choose a reagent that can be used to detect and tisercin and aminazine:
A. Mandelin’s reagent *
A.
B.
C.
D.
E.
B.
C.
D.
E.
775.
A.
B.
C.
D.
E.
776.
A.
B.
C.
D.
E.
777.
A.
B.
C.
D.
E.
Concentrated sulfuric acid
Concentrated hydrochloric acid
Bromine water
Reaction Vitali-Morena
Mandelin’s reagent gives positive result. Which poisons are present in the extract?
Tisercin and chlorpromazine *
Chlorpromazine and oxazepam
Tisercin and nitrazepam
Chlordiazepoxide and oxazepam
Oxazepam and diazepam
Mandelin’s reagent gives positive result. Which poisons are present in the extract?
Tisercin and promethazine *
Chlorpromazine and oxazepam
Tisercin and nitrazepam
Chlordiazepoxide and oxazepam
Oxazepam and diazepam
Mandelin’s reagent gives positive result. Which poisons are present in the extract?
Promethazine and chlorpromazine *
Chlorpromazine and oxazepam
Tisercin and nitrazepam
Chlordiazepoxide and oxazepam
Oxazepam and diazepam