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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. R=
hept-
Trigonal Planar
Cell Potential (Ecell)
0.0826Latm/Kmol

2. How to Find a Weighted Average
Net Ionic Equation
allotrope
specific heat
1) multiply each AMU by the percentage that represents that isotopes occurrence in nature 2) then add all the AMUs together.

3. ?T=k*m(solute)
Temperature
Cation
Molal BP Elevation Constant
Matter

4. The reactant in the reduction reaction that forces the oxidation reaction to occur
voltaic cells
square planar
Oxidizing Agent
endless

5. AX4
1) multiply each AMU by the percentage that represents that isotopes occurrence in nature 2) then add all the AMUs together.
chromate
tetrahedral
fusion

6. All _________ compounds are electrolytes
Hybridization
not spontaneous
Ionic
Endothermic

7. Ptotal=P1+P2+P3+...

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8. Boiling point - melting point - viscosity - vapor pressure - surface tension
charge
endless
End Point
effects of IMF

9. 180° - sp
oxidizing agent
precipitate
Linear
v3kT/m

10. Color of Ba (flame test)
geometric isomers
Anion
PV=nRT
green/yellow

11. 90° - d^2sp^3
First-Order Rate Law
Octahedral
strong bases
Equivalence Point

12. The part of the universe one is focused upon (in thermodynamics)
geometric isomers
Bond Order
system
trigonal planar

13. Where there are no electrons
Molal BP Elevation Constant
weak acid strong base rxn
n0
Nodes

14. AP doesn't deal with ...-order reaction - don't pick it!
third
Beta Particles-
Molecule
Molar Heat Capacity

15. AX5
trigonal bipyramidal
Zero-Order Half Life
analyte
Bond Energy

16. The total entropy is always increasing - all systems tend towards maximum entropy
Nernst Equation
2nd law of thermodynamics
Ideal Gas Law
London Dispersion Forces

17. An equilibrium expression
acetate
perchlorate
Solubility Product (Ksp)
Percent Yield

18. Ketone suffix
yellow --> green
-one
Bond enthalpy
Dalton's Law of Partial Pressures

19. Gain of electrons - decrease in oxidation #
reduction
entropy
Atmospheric Pressure
viscosity

20. CN¹?
Solution
cyanide
charge
Strong acid weak base rxn

21. OH¹?
alkane
hydroxide
LE Model
Ideal Gas Law

22. The amount of energy/heat required to raise some substance 1 degree C
Limiting reactant
carbonate
equivalence point
Heat Capacity (C)

23. Colors of Reaction when (Cr2O7 2-) --> (Cr 3+)
heat of vaporization
a precipitate forms
yellow --> green
Calorimetry

24. AX4E2
square planar
Naming Binary Ionic Compounds
Bases
Graham's Law

25. All cations are soluble with bromide - chloride and iodide EXCEPT
nu
Ag+ - Pb2+ - Hg2+
alcohol
electrolyte

26. Electron (symbol)
e-
boiling point
-one
Temperature

27. I¹?
linear
iodide
single bond
First-Order Rate Law

28. Boiling point elevation formula
Naming Binary Ionic Compounds
methods of increasing rate
?Tb= kb x molality
Joule

29. Puts OH? into solution
Exothermic
Second-Order Half Life
zero
Arrhenius base

30. Generally insoluble anions (names)
Valence Electrons(assigned)
a precipitate forms
Nodes
phosphate - sulfide - carbonate - sulfate

31. Group 2 metals
-al
Alkaline earth metals
Bronsted-Lowry Acid
anode

32. A neutral molecule/ion having a lone e- pair that can be used to form a bond to a metal ion
-1
oxalate
Alpha Particles-
Ligand

33. ClO2¹?
fusion
chlorite
exothermic
bent

34. AX3E2
exothermic
T-shape
Its root and adding -ide
trigonal bipyramidal

35. Cl¹?
Beta Particles-
First-Order Rate Law
acetate
chloride

36. Loss of electrons - increase in oxidation #
heat capacity
alcohol
oxidation
conjugate base

37. Passage of gas through tiny orifice
rate gas A/rate gas B = square root (mm gas B/ mm gas A)
Colligative properties
0
Effusion

38. n+m (these are orders of reactants)
Its root and adding -ide
Overall Reaction Order
Counterions
Law of Conservation of Mass

39. 1/[A]=kt + 1/[A]0
H
Integrated Second-Order Rate Law
Alkali metals
condensation

40. AX4E
0 degrees C - 1 atm
Balmer Series
viscosity
see-saw

41. Type of system in which nothing is transfered (no mass or energy); ideal
Valence Electrons(assigned)
not spontaneous
Boltzmann distribution
Isolated System

42. Oxidation # of Compounds
Integrated First-Order Rate Law
2nd law of thermodynamics
Pressure
0

43. Equation to find Ea from reaction rate constants at two different temperatures
ln (k1/k2) = (Ea/R)(1/T2-1/T1)
Cg=kPg
A Roman numeral
0.512°C

44. Energy involved in gaining an electron to become a negative ion
Hybridization
Faraday
sulfate
electron affinity

45. Heat needed to change 1 g of substance to 1°C
specific heat
P1V1/N1T1=P2V2/N2T2
0 degrees C - 1 atm
permanent gases

46. (organics) two carbons
eth-
System
rate
AE = q + w

47. Organic reaction in which water breaks apart a molecule (splitting into two hydroxides)
Finding Empirical Formulas
Pressure of H2O must be Subtracted
Temperature
hydrolysis

48. MnO4¹?
P1V1/N1T1=P2V2/N2T2
1.38x10?²³J/K
permanganate
Formal Charge

49. Verticals on the periodic table
precipitate
Ionic
cathode
group

50. 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
Volt
Finding Empirical Formulas
Electronegativity
p+