Respuesta :
Answer:
See explanation below
Step-by-step explanation:
First, in order to solve this, we need to use the expression to calculate the probability of these events to happen.
The first is conditional probability which is:
P(B|A) = P(AUB)/P(A)
The second would be the complemental rule of probability which is:
P(E) = 1 - P(e)
With these two expressions, let's calculate the probability for each part:
a) A week has 7 days, and for the first person, he has 7 options to be born, so probability of that person is:
P(1st person) = 7/7 = 1
Now, the second person also has the same options than person 1, but the condition here is that he has to match the same day of person 1, so, he only has 1 option out of 7 to be the same day so:
P(A|B) = 1/7
Finally the probability would be:
P = 1 * 1/7 = 1/7 or 0.143
b) In this part, we have a n group of selected random people. Let's use logic here, if we choose more than 8 persons randomly, we know that 2 of them has born on the same day at least. (Think about it, 7 days a week, 7 persons born in different days, but if you add one, that person born one day that another person in the previous group born too), so probability that when n is >7, is 1.
To know that at least 2 person born on the same day of the week, we have to choose a number of 7 people at least. From that number and below, we can calculate the probability. To do this shorter, I will do for n = 7 and n = 6.
By complemental rule, we know that:
P(born on same day) = 1 - P(not born on same day)
The probability of not born on the same day would be n - 1/n° days
For n = 7
We have 7 ways of choosing the first person, 6 ways to choose the seconds, then 5 ways to choose the following and so on....
P = 1 - 7/7 * 6/7 * 5/7 * 4/7 * 3/7 * 2/7 * 1/7 = 0.994
Doing the same thing with n = 6
P = 1 - 7/7 * 6/7 * 5/7 * 4/7 * 3/7 * 2/7 = 0.957
We can do this with n = 5 through n = 3, and you will get the other results if you need to show that.
n = 5
P = 1 - 7/7 * 6/7 * 5/7 * 4/7 * 3/7 = 0.85
n = 4
P = 1 - 7/7 * 6/7 * 5/7 * 4/7 = 0.65
n = 3
P = 7/7 * 6/7 * 5/7 = 0.388
c) As you can see, in the part b) when the value of n is 4 or higher, you'll get a probability greater than 1/2 (0.5), so we need to choose at least 4 people at random.
c)
We need to choose at least 4 people at random.
For solving this, we need to use the expression to calculate the probability of these events to happen.
What is the formula for the conditional probability?
The conditional probability is,
[tex]P(B|A) = P(AUB)/P(A)[/tex]
The second would be the complement rule of probability which is
P(E) = 1 - P(e)
Calculate one by one
a) A week has 7 days, and for the first person, he has 7 options to be born, so probability of that person is:
P(1st person) = 7/7 = 1
Now, next the second person also has the same options than person 1, but the condition here is that he has to match the same day of person 1, so, he only has 1 option out of 7 to be the same day so:
P(A|B) = 1/7
Then the probability is
P = 1 * 1/7 = 1/7 or 0.143
b) we have a n group of selected random people. use logic here, if we choose more than 8 persons randomly, we know that 2 of them has born on the same day at least. so probability that when n is grater than 7, is 1.
To know that at least 2 person born on the same day of the week, we have to choose a number of 7 people at least. From that number and below, we can calculate the probability. To do this shorter,
n = 7 and n = 6.
By complement rule,
P(born on same day) = 1 - P(not born on same day)
The probability of not born on the same day is n - 1/n° days
For n = 7
We have 7 ways of choosing the first person, 6 ways to choose the seconds, then 5 ways to choose the following and so on....
P = 1 - 7/7 * 6/7 * 5/7 * 4/7 * 3/7 * 2/7 * 1/7 = 0.994
Doing the same thing with n = 6
P = 1 - 7/7 * 6/7 * 5/7 * 4/7 * 3/7 * 2/7 = 0.957
Similarly for n = 5 through n = 3, and you will get the other results if you need to show that.
n = 5
P = 1 - 7/7 * 6/7 * 5/7 * 4/7 * 3/7 = 0.85
n = 4
P = 1 - 7/7 * 6/7 * 5/7 * 4/7 = 0.65
n = 3
P = 7/7 * 6/7 * 5/7 = 0.388
c) As you can see, in the part b) when the value of n is 4 or higher, you'll get a probability greater than 1/2 (0.5), so we need to choose at least 4 people at random.
c) As you can see, in the part b) when the value of n is 4 or higher, you'll get a probability greater than 1/2 that is (0.5),
Therefore we need to choose at least 4 people at random.
To learn more about the probability visit:
https://brainly.com/question/24756209
