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AP Chemistry

Instructions:

Answer 50 questions in 15 minutes.
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Match each statement with the correct term.
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1. Amount of heat needed to change a system by 1°C
System
sulfate
reduction
heat capacity

2. All _________ compounds are electrolytes
hydroxide
0 degrees C - 1 atm
Ionic
Its element

3. U(rms)=(3RT/M)^1/2
Heat
iodide
Root Mean Square Velocity
(moles of products that are gasses) - (moles of reactants that are gasses)

4. Amount of product produced when limiting reactant is used up
Bond enthalpy
Theoretical yield
zero
allotrope

5. An equilibrium expression
green/yellow
Temperature
Solubility Product (Ksp)
E

6. Occupies the space above and below a sigma bond
Graham's Law
Allotrope
yellow --> green
Pi Bond

7. R in instances that pertain to energy
8.314 J/K mol
Surroundings
London dispersion forces
sublimation

8. Effusion of a gas is inversely proportional to the square root of the molar mass

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9. How to Find a Weighted Average
Law of Conservation of Energy
A Roman numeral
First-Order Rate Law
1) multiply each AMU by the percentage that represents that isotopes occurrence in nature 2) then add all the AMUs together.

10. The line running between the atoms
Van't Hoff factor
square planar
Sigma Bond
STP

11. Elements which have unpaired electrons and highly affected by magnetic fields
viscosity
paramagnetic
alkene
yellow

12. (organics) one carbon
Buffer
meth-
red
viscosity

13. For colligative properties for electrolytes - the # of mols of ions/ mols of solute

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14. Force acting over distance
Work
Arrhenius base
Nodes
AH rxn = (Sum of AH of formation of products) - (Sum of AH of formation of reactants)

15. Solid to gas
sublimation
Naming Binary Ionic Compounds
blue-violet
red

16. #NAME?
Bond enthalpy
E
5% rule
voltaic cells

17. Like dissolves...
experimental yield
Cation
are not
like

18. kb of water
allotrope
msAT
0.512°C
-oate

19. 180° - sp
Closed System
nu
Linear
rate

20. Heat required to raise the system 1°C
heat capacity
Force = mass x acceleration
insoluble
like

21. AX6
-al
f
octahedral
-2 - with peroxide -1

22. AX3E
vapor pressure
isothermal
trigonal pyramidal
Percent Yield

23. Describe various properties of one orbital
viscosity
Quantum Numbers
Atmospheric Pressure
Gamma Ray-

24. E?s fill the lowest energy orbital first - then work their way up
vaporization
Aufbau Principle
effects of IMF
Gamma Ray-

25. The reactant that is being oxidized - brings about reduction
g solute/g solvent x 100
?Tf= kf x molality
Hybridization
reduction agent

26. Instrument used to measure the pressure of a not-atmospheric gas (open or closed system)
Percent Yield
purple --> pink
Manometer
Volume Metric Flask & Pipet

27. Mass/volume
Molality
Density
system
but-

28. All forms of energy except for heat
work
Dipole-dipole forces
0
Hund's Rule

29. The rest of the universe (in thermodynamics)
Molal FP Depression Constant
vaporization
-oic acid
surroundings

30. Universal IMF for nonpolar molecules
strong acid strong base rxn
s (fourth quantum number)
London dispersion forces
Temperature

31. How to Find an Empirical Formula Given Percentages
see-saw
g solute/g solvent x 100
1) Assume percentages are g (where you have 100 g) 2) convert to moles 3) divide by lowest value 4) plug into compound
1atm=?mmHg/Torr

32. Osmotic pressure=MRT
base and hydrogen gas
Hess's Law
Q<K
Osmotic Pressure

33. SI unit of energy; Kg*m^2/s^2
Weight
Joule
Resonance
P1V1/N1T1=P2V2/N2T2

34. Change in Energy (AE) = ? (in terms of work)
strong acids
H2 - F2 - N2 - O2 - Cl2 - Br2 - I2
Entropy (S)
AE = q + w

35. A monoatomic cation takes name from...
Reducing Agent
moles of solute/ L of solution
Heat
Its element

36. The total entropy is always increasing - all systems tend towards maximum entropy
heat capacity
2nd law of thermodynamics
Multiplying
Volt

37. Generally insoluble anions (names)
phosphate - sulfide - carbonate - sulfate
Diffusion
hydrolysis
Specific Heat Capacity

38. Reactant which doesn't get used up completely in a chemical reaction
Aufbau Principle
isothermal
sulfide
excess reactant

39. The lowest energy configuration for an atom is the one having the max number of unpaired electrons allowed by the Pauli principle in a set of degenerate orbitals

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40. Equation to find Ea from reaction rate constants at two different temperatures
bromate
Heat
ln (k1/k2) = (Ea/R)(1/T2-1/T1)
Enthalpy of Solution

41. Energy needed to break a bond
bond energy
Pauli Exclusion Principle
triple point
trigonal bipyramidal

42. S²?
Alkali metals
sulfide
d orbitals
permanganate

43. 6.022x10^23
d
1.86°C
mol
chloride

44. neutron (symbol)
alkane
Anion
rate law
n0

45. Speed of light - C
q
3.0x108m/s
-2 - with peroxide -1
Acid Dissociation Constant

46. Substance that - when dissolved - is conductive
electrolyte
hydrolysis
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
Manometer

47. These orbitals are spherical
alkyne
Colligative properties
rate
s orbitals

48. 1.Calculate moles of each atom in molecule 2.Divide each mole number by smallest mole number 3.If necessary - multiply every mole number to get a whole number 4.Moles of each atom is subscript in empirical formula
log[H+]
A Roman numeral
Hybridization
Finding Empirical Formulas

49. Two molecules with identical connectivity but different geometries
geometric isomers
are not
sulfite
Bond Energy

50. Point at which vapor pressure=air pressure above
Solubility Product (Ksp)
boiling point
Angular Momentum Quantum Number
endless