Quantum mechanics lecture 1&2

Question 1

State Boyle’s Law

Answer 1

The volume of a given amount of gas held at constant temperature is inversely proportional to pressure. p1V1 = p2V2

Question 2

State Charle’s Law

Answer 2

The volume of any given mass of gas is directly proportional to its temperature at constant pressure. V1/T1 = V2/T2

Question 3

State the ideal gas equation and define the terms

Answer 3

pV = nRT
pressure in pascals or Kpa
Volume in m^3 (note that L = dm^3)
n = number of moles
R = proportionality factor, 8.314|Jmol-1K-1
Temperature in kelvin (0 degrees C = 273.15K)

Question 4

Describe an elementary reaction

Answer 4

A reaction is elementary if the order of the reaction = molecularity, ie the number of molecules involved in the rate determining step

Question 5

State the requirements needed for a reaction to take place

Answer 5

Reactants, energy, collisions, bonds being formed

Question 6

State how to work out theoretical reaction rate

Answer 6

Collision rate (ie frequency) x the fraction of molecules with enough energy to react

Question 7

State how to work out theoretical reaction rate

Answer 7

Collision rate (ie frequency) x the fraction of molecules with enough energy to react

Question 8

State the three variables that define a gas

Answer 8

Temperature (K), pressure (Pa) and volume (m^3)

Question 9

Define isotherm

Answer 9

Constant temperature

Question 10

Define isochore

Answer 10

Constant volume

Question 11

State the standard conditions

Answer 11

1 atm (101325Pa) and 273.15K (0 degrees celcius)

Question 12

Define molar volume

Answer 12

= V/n = RT/p. One mole of ideal gas at STP = 22.414dm^3

Question 13

Give the equation to verify R using other constants and define the terms

Answer 13

k = R/Na

Question 14

Give the equation to verify R using other constants and define the terms

Answer 14

k = R/Na 
k = boltzman's constant
R = gas constant 
Na = avogadro's number

Question 15

Describe 3 properties of an ideal gas

Answer 15

1) There are no intermolecular forces between the gas particles
2) The volume occupied by the particles is negligible compared to the volume of the container they occupy
3) The only interactions between the particles and the container walls are perfectly elastic (ie total KE is conserved)

Question 16

Describe real gases

Answer 16

The atoms or molecules have a finite size, and at close range they interact with eachother through a varienty of intermolecular forces. For real gases, molar volume is not 22.414dm^3

Question 17

Define the compression factor, z, and describe the values of z obtained

Answer 17

z = Vm/Vm^o where Vm^o is the molar volume for an ideal gas
z = 1: there are no intermolecular forces. The gas can be described as an ideal gas
z < 1: Attractive forces dominate
z > 1: Repulsive forces dominate