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CAHSEE Math 5.1 Statistics, Data, and Probability I 174 Views

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Description:

Statistics, Data, and Probability I: Drill Set 5, Problem 1. When a normal Vegas pair of dice with six sides is tossed, what is the probability that the sum of the numbers will be greater than or equal to 3?

Language:

English Language

Subjects:

Tags:

Statistics, Data Analysis, and Probability 6 / Probability

Common Core Standards:

Transcript

00:03
Here's a shmoopy question for you...
00:05
When a normal Vegas pair of dice with six sides is tossed, what is the probability that
00:11
the sum of the numbers will be greater than or equal to 3?
00:15
You've already gotten in trouble once for sneaking in a pair of your weighted dice,
00:19
so we know you wouldn't dare pulling that stunt again.

00:22
And here are the potential answers...
00:27
OK, so what is this question really asking?
00:30
Well, it's a two-parter -- that is, 2 events happen and we have to figure out the odds
00:34
of the number from roll 1 plus the number from roll 2 being greater than or equal to 3.
00:40
If we just think about this a moment before doing ANY math, the SUM of these
00:45
rolls is almost ALWAYS going to be greater than 3 -- like,
00:49
the worst we could do is a 1 and a 1 but how many times does that happen?
00:53
If we rolled a 2 and a 1, we'd be at least equal to three -- same deal with a 1 and a 2.
00:59
Then EVERY OTHER ROLL combo is greater than or equal to 3.
01:03
So we KNOW that the odds are going to be VERY
01:06
high that we solve the question with a yes... or a true.
01:09
And if we just glance at the answer set, we could probably very quickly throw out answers
01:13
A and B because those show long odds and ours are going to be... the opposite.
01:19
If we had to, we could brute force with this question by laying out all of the 36 combinations
01:24
of rolls... like this...
01:25
...and counting how many numbers are greater than or equal to 3.
01:29
But that's a lotta work and time consuming and doesn't scale -- like... what if they
01:32
asked us for 5 dice rolls' odds? Yeah, then we'd be up test creek without a pencil.
01:39
So instead, since we know that the odds are going to very high, it'd be easier for us
01:44
to count the number of times the sum of dice is less than 3, or equal to 2, since 1 + 1
01:49
= 2, and 1 is the lowest number on a dice. We also know that 6 times 6, or 36, tells
01:55
us how many possible sum combinations we can get.
01:59
Not how many unique sums, but just
02:01
how many combinations we could get in total if we really wanted to...
02:05
Now we can apply the principle that the probability
02:08
of something occurring is the same as 1 minus the probability of that something not occurring.
02:14
In math speak, this would be P = 1 - (not P).
02:17
In this case, the 'not P' is the probability that the sum of the dice, when rolled,
02:22
is 1 over 36, which we found just a few seconds ago.
02:26
So, P = 1 - 1/36 equals 35/36.
02:31
The correct answer is D.
02:34
And yet... cat's eyes. Interesting.
02:36
You might not want to keep those dice of yours in your back pocket...
Full Transcript