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AP Chemistry 3.2 Chemical Reaction Rates. What is the experimental rate law for the reaction?
Transcript
- 00:04
Here’s your Shmoop du jour, brought to you by experimental rate law, the rule that made
- 00:09
all speed limits Avogadro’s number for a day. [Policeman pointing to speed limit with Avogadro's number on it]
- 00:12
It wasn’t popular.
- 00:13
Anyway, here’s today’s question:
- 00:15
What is the experimental rate law for the following reaction, given the data below?
Full Transcript
- 00:20
And here are your potential answers: Anybody feeling psychic? [Psychic woman appears]
- 00:27
Let’s start off by trying to predict what that rate law should be based on the reaction [Stoichiometry appears on her crystal ball]
- 00:31
stoichiometry.
- 00:33
So the stoichiometric coefficients are often the same as the reaction
- 00:37
order for each reactant. [Man working in a science lab]
- 00:39
Since the reactants are two CO and one O2, the reaction will probably be second order [Finger points to the reactants in the equation]
- 00:44
in CO and first order in O2.
- 00:47
If this guess is correct, the rate equals the
- 00:50
rate constant times the concentration of carbon monoxide squared times the concentration of [Psychic woman holding the rate constant]
- 00:56
oxygen, which is answer (B).
- 00:58
Shh…something is telling us we should open a psychic hotline…call now…only $10 a [Psychic woman doing a phone line advert]
- 01:03
minute…
- 01:04
But unfortunately, this isn’t a guessing game.
- 01:06
To test our hypothesis, we’ll need to look at the table. [Wheel of fortune presenter chucks away his microphone and walks off]
- 01:09
Between experiments 1 and 2, the initial concentration of CO is doubled while the initial concentration
- 01:15
of O2 stays the same. [Man pointing to figures in a table]
- 01:17
These two data points show us how the rate depends on the concentration of CO without
- 01:22
the influence of O2.
- 01:23
Seriously, no peer pressure here.
- 01:25
In this case, when the CO concentration is doubled, the rate increases by a factor of
- 01:30
four, which means the rate varies with concentration of CO squared. [Person using a pipette in a lab]
- 01:36
Between experiments 1 and 3, the initial concentration of O2 is doubled while the concentration of
- 01:40
CO stays the same.
- 01:42
We can use these two data points to figure out how the rate depends on the concentration
- 01:45
of O2 without worrying about CO.
- 01:47
Here, we see that when the O2 concentration is doubled, the reaction rate is also doubled,
- 01:52
so the rate is proportional to the O2 concentration. [Person taking blue liquid out of a flask]
- 01:55
Putting this all together, our overall rate law is rate = k[CO]2 [O2] the rate equals [Man pointing to a blackboard with the answers on]
- 01:59
the rate constant times the concentration of carbon monoxide squared times the concentration
- 02:04
of oxygen.
- 02:05
And, hey…that sounds pretty familiar, which means our guess was right and B is the correct [Psychic woman looks happy]
- 02:10
answer.
- 02:11
All right, well, this was fun, but we gotta get this hotline set up…shh…the spirits
- 02:16
are speaking…they're telling you to phone in and stay on the line for an hour…. [Psychic hotline ad]
- 02:21
on your parents credit card... yes, 1-800 shmoop, we'll tell you your future...
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