Things to know or know about for the FINAL!!!
Or
Suggestions for the loose leaf sheet of paper – both
sides, no bigger than 8.5 by 11.
Things to know or know about for the FINAL!!!
Or
Suggestions for the loose leaf sheet of paper – both
sides, no bigger than 8.5 by 11.
1. Mass number and atomic number
2. How to determine the number of protons, neutrons
and electrons in atoms and ions.
3. Masses of protons, neutrons and electrons in amu's.
4. Location of protons, neutrons and electrons in the
atom.
5. Relationship between electronegativity and an
atom's attraction for electrons.
6. Electronegativity trends.
7. Ionic vs. Covalent bonds. (metal/non-metal
bonds are ionic, non-metal/non-metal bonds are
covalent, hydrogen always forms covalent bonds)
8. Identification of elements using electron
configuration.
9. Ionization energy trends.
10. Names of families--alkali metals, etc.
11. Sublevel blocks on the periodic table.
12. Groups, families, periods, series
13. Dot diagrams
14. Balancing equations
15. Naming rules!
16. Activity trends
17. Nature of science
18. Valence electrons
19. Isotopes
20. Energy levels and electron configurations.
21. Light absorption and emission in relation to
excited electrons.
22. Formula writing and balancing
23. The tendency of an element to lose or gain
electrons in a chemical reaction. (and how many they
lose or gain).
24. Shielding effect and how it changes
26. Nuclear charge and how it changes.
26. Location of metals and non-metals on the periodic
table
27. What elements tend to form colored salts.
28. Size trends
29. Elements, mixtures and compounds.
30. Solutions, suspensions and colloids
31. Naming compounds
32. Types of reactions --- synthesis, decomposition,
etc…
33. The relationship of conservation of mass to
balancing equations – predicting products.
34. Moles
1. Mass number and atomic number
2. How to determine the number of protons, neutrons
and electrons in atoms and ions.
3. Masses of protons, neutrons and electrons in amu's.
4. Location of protons, neutrons and electrons in the
atom.
5. Relationship between electronegativity and an
atom's attraction for electrons.
6. Electronegativity trends.
7. Ionic vs. Covalent bonds. (metal/non-metal
bonds are ionic, non-metal/non-metal bonds are
covalent, hydrogen always forms covalent bonds)
8. Identification of elements using electron
configuration.
9. Ionization energy trends.
10. Names of families--alkali metals, etc.
11. Sublevel blocks on the periodic table.
12. Groups, families, periods, series
13. Dot diagrams
14. Balancing equations
15. Naming rules!
16. Activity trends
17. Nature of science
18. Valence electrons
19. Isotopes
20. Energy levels and electron configurations.
21. Light absorption and emission in relation to
excited electrons.
22. Formula writing and balancing
23. The tendency of an element to lose or gain
electrons in a chemical reaction. (and how many they
lose or gain).
24. Shielding effect and how it changes
26. Nuclear charge and how it changes.
26. Location of metals and non-metals on the periodic
table
27. What elements tend to form colored salts.
28. Size trends
29. Elements, mixtures and compounds.
30. Solutions, suspensions and colloids
31. Naming compounds
32. Types of reactions --- synthesis, decomposition,
etc…
33. The relationship of conservation of mass to
balancing equations – predicting products.
34. Moles