VSPER
Intermolecular forces
Work and Heat
Hybridization/sigma and pi bonds
Miscellaneous
100

Identify the electron geometry of NH2-

Tetrahedral


100

Rank the the intermolecular forces based on increasing strength: Hydrogen bonding, dispersion and dipole-dipole

Dispersion < Dipole-dipole < Hydrogen

100

A gas expands from 10.0 L to 20.0 L at a constant pressure of 2 atm. Calculate the work done by the gas in both L·atm

-20 L·atm

100

How many sigma and pi bonds are in the a double bond and triple bond


Double is one sigma and one pi bond

Triple is one sigma and two pi bonds

100

Define exothermic and endothermic


Endothermic is when heat is absorbed, exothermic is when heat is released

200

Identify the molecular geometry of PF5

Trigonal Bipyramidal

200

Identify the type of intermolecular force in NH3

Hydrogen Bonding

200

A 75 g piece of metal is heated from 20°C to 100°C by absorbing 1500 J of heat. What is the specific heat capacity of the metal?

0.25 J/C

200

Determine the hybridization of BeCl2

sp

200

Determine what occurs to ΔE when Q is negative and W is negative


Energy is released

300

Identify both the electron and molecular geometry of SF4


Electron is trigonal bipyramidal, molecular is seesaw

300

Rank the following molecules from weakest to strongest intermolecular forces: HCl, H₂,  H₂O and CH₃OH

H₂ < HCl < CH₃OH < H₂O

300

A gas does 300 J of work on its surroundings by expanding against a constant external pressure of 1.2 atm. If the initial volume is 4.0 L, what is the final volume of the gas? (Note: 1 L·atm = 101.3 J)

6.47 J

300

Determine the hybridization of PCl5

sp3d

300

Define intermolecular forces and intramolecular forces


Intermolecular forces is between molecules and intramolecular forces is found within a molecule

400

Identify the electron, molecular geometry and bond angle of ClF3


Electron is trigonal bipyramidal, molecular is T-shaped

400

Arrange the following molecules in order of increasing boiling point: CH₃CH₂OH, CH₃OH, CH₄, CH₃CH₃

CH₄ < CH₃CH₃ < CH₃OH < CH₃CH₂OH

400

A 300 g sample of a metal absorbs 4500 calories of heat, causing its temperature to rise from 25°C to 75°C. What is the specific heat capacity of the metal in J/g°C? (Note: 1 calorie = 4.184 joules)

1.2552 J/C

400

Determine the hybridization and amount of sigma and pi bonds in NO3-


hybridization is sp2, has 3 sigma bonds, one pi bond

400

Determine what occurs to ΔE and identify what Q and W indicate: Q is negative and w is positive


Q = heat is released, W = work is done on ΔE = depends on the sizes of q and w

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