11 US 1st Term Revision

100

expression that defines the change in free energy (equation)

ΔG = ΔH – TΔS

100

The term that describes the change in the concentration of a reactant divided by the change in time of the reaction

Average Reaction Rate

100

Substance that increases the rate of a chemical reaction without being used up

catalyst

100

The rate law for the forward one-step reaction A + B --> 3C

R=K[A][B]

100

the slowest step in a reaction that proceeds in a sequence of steps

rate-determining step

200

entropy increases when temperature _____________

increases

200

Overall reaction order for the following rate-law expression

Rate = k[A][B]²[C]³

200

two conditions for an effective collision

sufficient energy ad favorable orientation

200

Batteries and film will stay fresh longer if they are kept in a refrigerator or freezer

low temperature, particles have low kinetic energy, fewer collisions, slower reaction rate

200

Species that appear in some steps but do not appear in the net equation.

Intermediate

300

Suppose that the following chemical reaction A + B + 2D → E takes place in a two-step mechanism.

Step 1: (fast) A + B → C
Step 2: (slow) C + 2D → E

Identify the rate-determining step and write an acceptable rate law. Identify the intermediate.

Rate determining step: step 2 the slow one

Intermediate: C

Rate law for rate determining step: R=K[C][D]²

Overall order = 2 + 1 = 3

300

It is found at the peak of the energy profile graph

Activated-Complex

300

the phase state that has the highest entropy

gas

300

it is unique, doesn't change with change in concentration, but changes with change in temperature

Specific Rate Constant K

300

The complete sequence of steps that make up a complex reaction.

reaction mechanism

400

ΔH is positive and ΔS is negative

Non-spontaneous reaction

400

Short-lived unstable structure formed during a collision

Activated-complex

400

Free energy change depends on

temperature, change in enthalpy and change in entropy

400

Calculate ΔGsystem for the following process, and state whether the process is spontaneous or nonspontaneous. ΔHsystem = –150 kJ, T = 200 K, ΔSsystem = +2.00 kJ/mol•K

ΔG= ΔH - TΔS

ΔG= -150 - (200 x 2) = -150 - 400 =-550

400

If doubling the concentration of a reactant doubles the rate of the reaction, the concentration of the reactant appears in the rate law with

exponent of 1 (order of reaction = 1)

500

For the reaction A(g) + B(g) + energy --> 3C(g) + D(g),

Is entropy change positive or negative? Is enthalpy change positive or negative?

Entropy change = positive (more moles of gas in the products side)

Enthalpy change = positive (energy in reactants side endothermic)

500

On the energy profile this is measured from the reactants to the activated complex

activation energy

500

Lowers the activation energy

Catalyst

500

increases the rate of a reaction

increasing temperature

increasing surface area (use powder instead of lumps)

increasing concentration

Adding a catalyst

500

A reaction is zero order in reactant A and second order in reactant B. If both concentrations are doubled the rate will

quadruple (increase by a factor of 4)