Prior to perfon niug th e ste ps which you b el ieve will lead to a solu ti on of the problem , you will prc pare a written re por t. Th is re port wi ll consist o f th ree par ts: I. T h e state m ent o f the problem . Copy th e stateme n t from the page. II. The p roposed method of attack . Descr ibe III shor t im pe r ati ve sen ten ces t he step s to be ta ken. II I. Demon strat io n of co nsoua ucc. State why your p roposed m ethod will r eall y yield a solu t ion to you r proble m . Show that the ste ps in you r att ack are pertinen t. Subm it th is rc port, an d your no te book, to yo u r instructo r. H e wi ll exam ine the report and , pe rh ap s suggesti ng a few changes, cert ify th at your proposed m eth od is satisfac tory. T hen carry ou t you r procedure, re cording all impor tant ob serva tions in your no teb ook. Rewri te, or n eatly correct wh ere n ecessary, you r original r e por t an d add a fourth sccuon: I V. The so lu tion of the problem . Show, by citi ng th e res u lts o bt ained in the Iabora . tory, that th e problem is in deed solve d . If req ui red by th e nature of the problem , include sam ples of mater ial p repare d in the la bora to ry. Su b mi t th e ent ire r eport for grad in g. T he gr ade will be deter mined b y co ns iderat ion of thes e po in ts: I. 2. 3. 4. 5. G. T h e aptness an d efficienc y of the p lan used to ob tain an answer to the p roblem . Agreemen t o f the res u lts ob tai ne d wit h acce p ted ch emical fact s and principles. T he m e of go od En gli sh gr am ma r. T he clarity of your exposit io n. You r la bora to r y techniq ue . P ro pe r usc of your labo rator y notebook . THE PROBLEMS Group A. A Study of Principle s l. Sel ect an y ind icator you ch oo se and d etermin e its jJK va lue . 2. P ro ve the valid it y o f Cha rles' law. 3. Pr ove that any salt yo u choose d issolves in wa ter in the form o f io ns. 4 . Show, fo r an y two ele me n ts you choose, that th e law of m u lt ip le proportions is true for two or more com pou nds of these two clem ents. 5. Show th at m etals below hy d roge n in the electromoti ve ser ies will, u nd er certai n con d it io ns, d isp lace hyd roge n fro m some acids. 6. Prove Dalto n 's Law of Part ial P r essures. 7. Show th at oxid es o f m etals h ave bas ic properti es and th at oxid es of nonme ta ls ha ve acid ic properties. 64 8. Show tha t, in the series 1\', P, As, Sb . Hi, the metallic character of these el ements inc reases as atom ic n u mber increases. 9. Show that , because o f h yd ro lysis, a solut ion o f ammoruum sulfide has a lower concentra tion of sulfide ion than a solution of sod iu m sulfide of the same sto ich iometric co ncentra t ion . 10. By usin g the Dulong-Petit rel ation and su itable laborator y data , determine th e approxima te atomic weight of any ele me nt you choose. Group B. A Study of Principles (continued) l. Determine the value of R , the gas constant. 2. \ Vhat is the aceta te per liter? pH of a solu t ion con taining I mole of ace tic acid an d 2 mo les of sod iu m 3. Prove the validity of Boyle's law. 1. Show th at , compared wi th each o th er, ti n (II ) su lfide is basic and tin (I V) sul fide is acid ic. 5. Sho w that the p resence of ammonium aceta te will affect the d egr ee of ionization of acetic acid, whereas the presence of ammonium ch loride will not affect the degree of ionizat ion of h ydro chloric acid. 6. Sho w that it is possib le, under proper conditions, for a meta l that is below another in th e ele ctromot ive series to form ions, wh ile the mo re read ily oxidized metal is precipita ted fro m so lu tio n. 7. The properties o f an el ement can often be in ferred fro m the beh avior of other d ements. Demo nstrate, b y labora tor y tests, but witho ut testing every possib ili ty, that it is reas onable to state tha t all nit rates are solu ble. 8. Sho w that the degree of h ydro lysis of a solu t ion of a salt o f a weak acid an d stro ng base, selected b y yourself, d epends u pon the temperature of the solutio n. 9. Show that the electron ega ti vity of the ha loge ns, chlor ine th rough iodine, decreases as the ir atomic n um ber increases. 10. Sho w that, in a solution con tai ning h ydronium and sulfid e ions in equ ilibrium with hydrogen mo no su lfide ion s and d ihyd rogen sulfide, when the h yd ro n iu m ion co ncentrat ion is increased by a fact or of 10, the sulfid e ion co ncentrat ion is decreased by a factor o f 100. Group C. The Proper ties of Substa nces l. Sho w th at ammon iu m sulfat e hydrolyzes in sol u tion. 2. ' Vha t is the atomic weigh t o f ch lorine ? 3. What is the ion izat ion cons tant of acetic acid? 65 4 . W h at is th e equ ival en t weight of tin ? 5. 'Vhat is the valence of alu m in u m? 6. Usi ng dat a ob tained in th e la boratory, p re par e a gra ph sh ow ing th e density of liqu id wa te r as a func tio n of its tem pe ra ture over the range from 00 C to 100 0 C. 7. ' Vhat ar e th e valence s of ir on? 8. Sh ow that a fused salt will con d uct an electr ic cu rren t. 9. Sh ow that the boi lin g po int of a homologous ser ies of alco h ols is a fu nct ion of their molecu lar weigh t. N ote: u se on ly a few mill il iters of eac h alcohol. 10. Show that iod id e io n is a reduci ng age nt. Grou p D. The Properties of Substa nces (continue d) 1. List an y four ox id izing agents in order of decreasing ox id izing po wer an d validate the list. 2. Show th at potassium d ichromate is an oxi d izing agent. 3. w ha r is th e atom ic weigh t o f magnesium? 4 . Select severa l substanc es and show, by la borato r y tests, that they are all reducing agents. 5. t vhar is the fJH o f a O. l -Af solution o f acet ic ac id? 6. Show that t he molecu lar weight of oxygen is 32. Caut ion : Do n ot pr e par c element al ox ygen (if yo u d ecide to solve the prob lem in this way) by h eati ng a ch lo rate or perch lorate. 7. P rove t ha t sod iu m carbona te will react with calcium hydrox ide. 8. By m eans of a su ita b le appara tu s, study the p rope r ties of severa l selecte d me ta ls to deter m in e wh ich w ill and wh ich wi ll not , nell in the finely div ide d state , react with hot steam. 9. Show that acetic aci d rea cts more slow ly with l ine than docs h yd roch lori c acid of the sam e m ol ar ity. 10. Show that the value of any selecte d p hysical pro perty of severa l compou nds isom er ic to each o ther, wh ich yo u select, de pend s u Jlon th e molecular str uct u re o f the Isomers . Group E. Ana lytica l Chem istry, Qualitative Ana lysis l. Show that acetaldeh yde is an ald ehy de. 2. ' Vha t products arc for m cd in the comb us ti on of the fuel gas used in yo ur laboratory? 3. ' Vhat is the sm allest con centration of iod ine that can be de tected by the starch te st? 66 4. O f wh at is the at mos p here com posed? 5. Show that heel' co n ta ins arsen ic. 6. Show that gel atin e coma ins nitrogen . 7. Show that the ion , Cll Br ~ = , can exi st in solu t ion. 8. Show th at there is a car bony l group in the acetone molec u le . 9. Se parate an int imat e mixtu re of 5 g of sodi um ch lor ide and 5 g of sucrose. 10. Determ ine t he lean amount of arsenic and of antimony that can be detected h y the Xla rsh te st. Group F. Analytical Chemistry, Qualitative Analys is (continued) As required for ea ch problem , prepare solut ions approximatel y O.03-M in each ion listed . Deter mi ne, and te st, methods for se par at ing each ion from t he o thers present in the same solu t ion. l. AIH +, Ag +, Ba H . 2. H gt H , Cll H , Pb H . 3. Cu ' ", Sn ++++, Fet ". .1. Sr H, ~ l g H, Zn H . 5. II g H , Ag", Ca H . 6. BaH, C u H , Ca H , H g H . 7. AI H +, Zn H, ~l gH , ~l n H . 8. II g H , Ca " , Ag -, xs -. 9. Cr, O r- . Fe ++, AP ++. Zn ++. 10. Sn t "t". ClI H , Ag", :\In ++ . Group G. Analytical Chemistry, Quantitative Analysis I. As accu r ately as po ssible, dete rmi ne the percen tage of sod iu m ch lorid e represen tat ive sam p le of t he rock salt in th e bo u le o n th e side she lf. III a 2. " ' hat is th e form u la of n ickel su lf ide? 3. \ Vha t is th e per ce n t o f acet ic acid ill vinegar? 4 . \ \' hat is th e value of X in any one , or more, o f t he following or sim ilar for m u las : C u S O~ ' X Il 1 0 , Z\' a 1 B ~ O .· XH 2 0, CaSO-l'X H 1 0 ? 5 . Sh ow that the m olecu lar we igh t of am m on ia is a pp ro xim ately I i . 6. Deter m in e th e am ou n t of citric acid as gra ms per 100 m l (you m ay assume that all the ac id p re '>elll is ci tr ic acid ) in a sample of citr us frui t juice. 67 7. Determine th e solubilit y produ ct of an y ..lightl y solu blc salt you choose. 8. Determi ne the mol ar co nce nt ration of amm o nia in the di lute ammonium h ydroxide solu tion o n th e side shel f. 9. \ Vhat is the co mpos it ion of constant-boiling hydroch lori c acid? 10. Determi ne t he first and second ion izat ion constant s of ortho phosphoric acid . Group H. Anal ytica l Chem istry, Quantitative Ana lysis (continued) 1. Show t hat 13 ~ of calcium carbon ate con tai n ap proxima tel y 1.2 g of carbon. 2. Show that th e molecul ar weight of carbon d ioxide is approx imately 44. 3. Pro ve tha t water cons ists of h ydrogen and ox ygcn in th e ra tio of two atoms of hydrogen to one atom of ox ygen. 4. Determ ine th e percen tage of hydrogen in a su itable piece of sto ne. (N ote: N ot all kind s of rock conta in hydrogen .) 5. Confirm thc statement, as given o n the label by the man ufact urer, of the per· ccntage of ni tric acid in a bou le of concent ra ted acid. 6. Det erm ine the value of th e instabil ity consta nt of the complex ion Ag (XH 3)2-. 7. Determine the purity of a sample of bak in g soda . calcu lated as perccntage of ::'\a 2 0 . 8. Prove th at when 100 m l of I -N H CI solut ion are added to 100 m l of I-N i\'aOH solution, 0.1 eq uiva lent of water is form ed. 9. By a proced ure which re q uire s ti trat ion . de termi ne the carbo n dioxide cont ent of th e a ir in yo ur lungs as a fu nction of the length of t ime after inh alat ion . 10. \\' ha t is th e purity of the potassium pcrm an ganate in the bou le 011 the side shelf- Group I. Pre para tions 1. Start in g with re sorcinol and ph thalic an hydri de. prepare a few grams of fluoresce in. Pro ve th at your prod uct is reasonably pure. 2. Exercising all possible precautions to avoid loss of and contam ina t ion of mater ial . prc parc pure sod ium chloride from th e rock salt on the side shelf. 3. Convert an y solu ble sulfate to the corres ponding chloride by two d iffere nt me th od v an d con firm yo ur resu lts. 4. Prepare an aq ueous collo idal d ispersion, free of dissolved elect rol ytes. of ' a ny chosen water-insoluble su bstance. 5. Purify a few grams of crude borax . 6. Prepare a Iew grams of mon osodium d ihydrogcn orthophospha te and of d isod iurn mo noh ydrogen ort hopho sphate by mix in g the proper q ua nt it ies of ortho ph ospho t ic acid and sod ium hydroxide. Prove tha t yo u have pre pared the se salts " 68 7. \ Vithout ut ili zing p u re or impure gasco us oxygen, preparc a sample of purc magnesiu m oxide. Sho w tha t your product is p ure. 8. In the synt hes is of Congo red, whi ch includes a step requiring the diazotizatio n of bcn zid enc, wha t variab les affect the yield ? 9. Prepare a few grams of zinc chloride , start ing with zin c su lfate. Prove that you h ave ob ta in ed the desired prod uct. 10. Prepare 10 rnl o f etha nol. Group J. Preparations (continue d) l. Prepare 2 g of co ppe r (I) su lfide and 2 g of cop pe r (II) su lfi de . 2. \ Vhat factors affect the yield in the syn thesis of a -prop yl acetate in the laborator y? 3. P repare a small q uant ity, about 0.00 1 mole , of hydroge n b rom ide. 4. P repare a sma ll quan ti ty o f magn esium nitr-ide an d cert ify its pur ity. 5. P rep are a few gra ms of any salt o f a p hospho-oxy acid, salts of orthophosphoric acid excl u de d , and confi r m yo ur synthesis. 6. P repare a few grams of coarse filamen tous rayon. i . Prepare a few grams of an y water-soluble wer ner comp lex com po u n d tha t you choose. 8. P repare I g of iodine. 9. Prepare a few gra ms of an y water-insoluble 'Vern er com plex co m pound t hat you choose. 10. Prepare 5 g of sod ium h yd rogen su lfa te. P ro ve tha t it is sod ium hyd rogen su lfate. Group K. Technique l. At wha t tempera ture is the solu b ility, expressed in grams of salt per lit er of wat er, of sod iu m ni tra te and potassium n itrate the same? 2. Demo nstrate th at air h as weigh t. 3. Show tha t ni trogen , o btained by th e removal o f oxygen, carbon di oxide, and water Ya po r from the air, is d ifferent from ni trogen ob tained b y the carefull y co nt rolled react ion be tween ammoni um ch lori de and sod iu m nitrite. Ca ution : Un less the reaction between :--: H~CI a nd :'\a:\"0 2 is carefu lly controlled , the nitrogen may be released exp losivel y. 4. Show that the su m of the con d ucti vities of a O.I ·.:\J sod iu m ch lo ride solu tion and a O. l -M silve r n itra te sol u rion is gre ater tha n the cond uc t ivity o f an equal vol ume o f thes e two sol ut ions mixed toge ther. 5 . Show, us ing laborato r y data, th at the logari th m o f the yapor pressurc o f an y sta nce you ch oose is a lin ea r function o f the recip roca l of the abso lu te tcmpera tll r ~ 69 ~ 6. Show, for a pai r of su bstances wh ich you cho ose, that whe n a solute is d issolved in a solvc u r, the volu me o f the solut ion is not equ al to the sum of the volu mes of the separa te co nsti tucnts. 7. Show t ha t act ivated alu m ina 'will ad sorb a gas. 8. Select any three ind icators whic h change color in the p H ra nge 4 to 9 and de te rmi ne , to the nearest half j )H u nit, t he re lat ion between color o f each ind icato r and the J)l! o f the solut io n in whic h a few d rops of the indicator so lut ion ha ve been d ispersed. 9. Det ermi ne t he weigh t of a p iece of zin c wit ho ut weig hing it or any o th er su bstance o n a balance or other weigh ing d evice. 10. Sho w that th e su m o f the cond uctivi t ies of a n.I -At acet ic acid solu tion and a O.l -AI am mon iu m h ydro x ide solution is less than the co nd uct ivity o f a mi xture of eq ual volu me s of these two solu tions. Group L. Techni que (continued) 1. Prepare a few m illiliters of any easily liq uefied gas. 2. From the stand poin t of cur rent cost and from labo ratory data , d ete rmine whic h is the best, next best, nex t to poores t, an d poorest, antifreeze : sod iu m sulfa te, calciu m chloride, glycerine, ethyl alcohol. 3. Determ ine th e d ensit y of a large piece of mo ssy tin . 4. Compare the prod ucts formed in the d estruct ive d istilla tion of bitum ino us and of anthracite coal. 5. Measure the rel at ive h umidi ty o f the ai r in the laboratory. 6. Using a calomel electrode, a plati nu m electr ode, an d a po ten tiom eter, tit rate O.Ol -Al iron (II ) su lfate solution (in a beake r) with O.OI-At po tassium dichromat e solu tion (in a b u ret ). Draw a titration cu rve an d determ ine the endpoin t. 7. Using data ob tained by steam di stillation , an d oth er necessary information fro m reference wor ks, ca lculate the molecular weigh t o f nitrobenzene . 8. Show that the su m of the condu cti vit ies of a I-M h yd rochlori c acid solut ion an d a I-At sod iu m h ydroxide solut ion is greater than the con d uct ivity of a m ix tu re o f eq ual volu mes o f these two sol u tions. 9. Show that acti vated charcoal will adsorb a solute from a solu tio n . 10. Show th at acet ic acid is d imeric when d issolved in car bo n tetr achlorid e. 70