Single Step Rate Laws. Rate Law A B where, Rate = -1 x ∆A and Rate = 1 x ∆B 1 ∆t 1 ∆t Or:...
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Transcript of Single Step Rate Laws. Rate Law A B where, Rate = -1 x ∆A and Rate = 1 x ∆B 1 ∆t 1 ∆t Or:...
Single Step Rate Laws
Rate Law
• A B where,
• Rate = -1 x ∆A and Rate = 1 x ∆B 1 ∆t 1 ∆t
• Or: Rate = -1 x ∆A = 1 x ∆B 1 ∆t 1 ∆t
Reaction Rate• Proportional to the [concentration] of
reactants raise to a power = to their coefficients in a balanced equation
• Rate ∝ [Reactants]coefficients
• Rate = k[reactants]coefficients • K: – unique based on reaction– Depends on temperature
Order of Reactant
• = to the coefficient of a reactant in a balanced equation
• =the exponent of the reactant in the rate law
• Use these reactant coefficients to determine overall order of reaction = sum (+) of all the exponents in a rate law
Example
• aA + bB cC + dD
• Rate ∝ [A]a[B]b• Rate = k[A]a[B]b
• Order of A = a• Order of B = b• Order of Reaction = a+b
Graphs
Order can be used to predict the shape of:
Concentration vs. Time Graph
Rate vs. Concentration Graph
Zero Order
• Rxn rate independent of reactant concentration
• (insert graphs from single step handout)
First Order
• Reaction rate ∝ concentration• (ie. Rate decreases, concentration
decreases)
• (insert graph)
Second Order
• Rate increases exponentially as concentration increases
2NO N2O2
a) Write a rate lawb) Determine the order of the reactionc) Determine k if R = mol/L s when [NO] = 2.1 ∙
mol/Ld) Find the new R value if temperature is
unchanged and [NO] = 1.2 mol/Le) How does the value of R change if the [NO] is
tripled?
e) How does the value of R change if the [NO] is tripled?
• Assume [NO] = 1• Then, rate = k[1]2 = 1 x k
• If [NO] is tripled, then the new [NO] = 3 where
• Rate = k[3]2 = 9 x k
• When the [NO] is tripled, rate increases by a factor of 9!
a) Write a rate law
• 2NO N2O2
• Rate = k[NO]2
• (reactants only!)
b) Determine the order of the reaction
• Rate = k[NO]2
• Order = 2
c) Determine k if R = mol/L s ∙when [NO] = 2.1 mol/L
• K = rate = 4.3 mol/L s∙ = 0.98L/mol s∙[NO]2 (2.1 mol/L)2
Rate = k[NO]2
Rate = k[NO]2
Rate = k[NO]2
d) Find the new R value if temperature is unchanged and [NO] = 1.2 mol/L
• Rate = k[NO]2
= (0.98 L/mol s)(1.2mol/L)∙ 2
= 1.4 mol/L s∙
Don’t forget BEDMAS and order of operations!
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