Test your basic knowledge |

AP Chemistry

Instructions:

Answer 50 questions in 15 minutes.
If you are not ready to take this test, you can study here.
Match each statement with the correct term.
Don't refresh. All questions and answers are randomly picked and ordered every time you load a test.

This is a study tool. The 3 wrong answers for each question are randomly chosen from answers to other questions. So, you might find at times the answers obvious, but you will see it re-enforces your understanding as you take the test each time.

1. Variable for spin of electron (+.5 or -.5)
s (fourth quantum number)
purple
endothermic
viscosity

2. (organics) nine carbons
Equivalence Point
non-
chlorite
Second-Order Half Life

3. These orbitals are perpendicular
Pressure
p orbitals
Hybridization
Integrated First-Order Rate Law

4. States molecules at a given temp. vary in kinetic energy along a bell-curve of molecular velocities
Boltzmann distribution
Bonding Pairs
Allotrope
2nd law of thermodynamics

5. 180° - sp
3rd law of thermodynamics
dec-
Linear
Integrated Rate Law

6. Boltzmann constant - used in calculating speed of gas per molecule
Anion
square pyramidal
end point
1.38x10?²³J/K

7. H+ Acceptor
Bronsted-Lowry Base
are not
Reducing Agent
single bond

8. Point at which liquid?gas occurs
hydrocarbons
PV=nRT
boiling point
conjugate base

9. Metal oxide + H20 ->
Solute
base
Volt
cathode

10. Faraday's constant
d
96500
First-Order Rate Law
trigonal bipyramidal

11. Heat capacity formula
PEACe 1)each molecule is a Point in space 2)Elastic collisions 3) no force of Attraction 4) no energy lost or gained to Collisions
C=(mass)(specific heat)
8.314 J/K mol
heat of vaporization

12. Molecules' tendency to stick to the container
Radioactivity
adhesion
Cation
Amino-

13. #NAME?
Heat
p
0
E

14. How to Find an Empirical Formula Given Grams
ammonium
1) Convert to moles 2) divide by lowest moles 3) if any halfs - double all values 4) plug into Compound
hydrolysis
Trigonal Bipyramidal

15. Theoretical yield-experimental yield/theoretical yieldx100
effects of IMF
violet
% error
22.4L

16. Substance that - when dissolved - is conductive
Its root and adding -ide
amine
electrolyte
force x distance = work done

17. 1/[A] vs. time is a ...-order reaction
second
End Point
(moles of products that are gasses) - (moles of reactants that are gasses)
London Dispersion Forces

18. Energy required to break a bond
chloride
Solvent
excess reactant
Bond Energy

19. HCl - HBr - HI - HNO3 - HClO4 - H2SO4
voltaic cells
v3RT/M(in kg)
vaporization
strong acids

20. ln[A] vs. time is a ...-order reaction
first
Naming Binary Ionic Compounds
Hund's Rule
Integrated Rate Law

21. % yield
# protons + # neutrons
melting
0.0826Latm/Kmol
actual yield/theoretical yield x 100%

22. (organics) double-bonded compound
1.86°C
Zero-Order Rate Law
alkene
Trigonal Planar

23. 0°C and 1 atm
Open System
State Functions
STP
Bonding Pairs

24. l=2
d
Alkali metals
Equilibrium Expression
Dipole-dipole forces

25. AP doesn't deal with ...-order reaction - don't pick it!
Ampere
fusion
analyte
third

26. When n=6 ->2 - color=
specific heat
violet
precipitate
3.0x108m/s

27. A monoatomic anion is named by taking...
Its root and adding -ide
alkene
P1V1/N1T1=P2V2/N2T2
Aufbau Principle

28. Rate of Diffusion/Effusion formula
Arrhenius Acid
Bond enthalpy
t-shape
rate gas A/rate gas B = square root (mm gas B/ mm gas A)

29. Unit of electrical potential; J/C
Bronsted-Lowry Base
nitrite
hydrocarbons
Volt

30. As protons are added to the nucleus - electrons are similarly added
Aufbau Principle
1atm=?mmHg/Torr
Bond Energy
T-shape

31. NO3¹?
nitrate
Reducing Agent
s (fourth quantum number)
oct-

32. Kinetic Energy per mol
96500
3/2RT
Octahedral
C=(mass)(specific heat)

33. Occupies the space above and below a sigma bond
Bond Order
Pi Bond
-2 - with peroxide -1
Temperature

34. Atoms with the same number of protons but a different number of neutrons
indicator
Second-Order Rate Law
Tetrahedral
Isotopes

35. Energy needed to vaporize a mole of a liquid
fusion
Magnetic Quantum Number (ml)
0 degrees C - 1 atm
?Hvap

36. Calculation from K to C
Resonance
C + 273
1atm=?mmHg/Torr
dec-

37. Lowers activation energy
catalyst
Electronegativity
Angular Momentum Quantum Number
AE = q + w

38. Pairs of electrons localized on an atom
Lone Pair
AE= AH - RTAn
Molecular Orbitals (MOs)
P of a =(X of a)(total pressure)

39. The chemical formed when a base accepts a proton
Bronsted-Lowry Base
conjugate acid
22.4L
Naming Binary Ionic Compounds

40. Instrument used to measure the pressure of a not-atmospheric gas (open or closed system)
diamagnetic
zero
Manometer
freezing

41. Raoult's Law - relations between vapor pressure and concentrations
Bronsted-Lowry Base
22.4L
cohesion
P1= X1P1°

42. Function in which it doesn't matter HOW the changes take place - only that they do; you can use to formula Final - Initial ( i.e. energy - pressure - volume - temperature - sort of moles)
Integrated Zero-Order Rate Law
22.4L
Enthalpy of Solution
State Functions

43. A single substance that may be an acid or a base (i.e. water)
2nd law of thermodynamics
heat capacity
Bonding Pairs
Amphoteric

44. In ideal gas law problem - when it says "atmospheric" ...
Le Chatelier's Principle
mol Fraction
Ligand
Pressure of H2O must be Subtracted

45. Group 1 and heavier Group 2 bases
1)Assign Oxidation #s 2) Half Reaction 3) Balance Moles 2) Balance add e- to balance Oxidation #s (RED-OX = reduction on left - Oxidation on right) 4) Add H+ or OH - to balance charge 5) Add H2O to balance hydrogens 4) Balance electrons by multiplyin
Allotrope
Oxidizing Agent
strong bases

46. [A]=-kt + [A]0
-oic acid
P1V1/N1T1=P2V2/N2T2
Enthalpy of Solution
Integrated Zero-Order Rate Law

47. Wavelength symbol
p+
lambda
X of a = moles a/total moles
Isolated System

48. (organics) three carbons
prop-
isothermal
Scientific Method
dichromate

49. AX6
octahedral
1) Assume percentages are g (where you have 100 g) 2) convert to moles 3) divide by lowest value 4) plug into compound
8.314 J/K mol
2nd law of thermodynamics

50. Negative enthalpy - heat flows into surroundings
Molar Heat Capacity
First-Order Rate Law
exothermic
Pressure of H2O must be Subtracted