# What is the probability that a leap year has 53 Sundays?

So the probability is 225 / 2,118,760 or about 1 in 9,417. Originally Answered: What is the probability that a leap year contains 53 Mondays and 53 Tuesdays? A leap year has 366 days. Now 364 is divisible by 7, and therefore there will be two excess days of the week in a leap year.

## What is the probability of 53?

Answer: The probability of getting 53 Sundays in a non-shooting year is 1/7. See the article : How many presidential trips did Obama take?

What is the probability of getting 53 on Monday in a year? There are seven days a week and one of the days is Monday. Therefore, the probability of getting 53 Mondays in a normal year is 1/7.

What is the probability of getting 53 on Friday? The number of cases where we get a Friday = 2. The probability of getting 53 Fridays in a leap year = 2/7.

What is the probability that there are 53 Sundays in a leap year? Detailed solution The probability that the leap year has 53 Sundays must be determined. Calculation: A week has 7 days and a total of 366 days. âˆ´ The probability of leap years with 53 Sundays is 2/7.

## What is the probability for leap year to have 52 Mondays and 53 Sundays?

In a non-leap year, there will be 52 Sundays and 1 day left. This 1 day can be Sunday, Monday, Tuesday, Wednesday, Thursday, Friday, Saturday, Sunday. See the article : How long does botox last. Of these, a total of 7 outcomes, the favorable outcomes are 1. Therefore, the probability of getting 53 Sundays = 1/7.

What is the probability of getting 53 Sundays and 52 Mondays in a leap year? question_answer Answers (1) A leap year has 52 weeks. 52 weeks has 52 Sundays. Therefore, the probability of 52 Sundays = 1/7. Therefore, the probability that a leap year has 53 Sundays is 2/7.

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## What is the probability that a randomly selected day of a leap year falls under a weekend?

Simply count 15 of the 97 starts on a Friday and 13 starts on a Saturday. This may interest you : What is 3rd of a cup? Thus, the probability that the randomly selected leap year has 53 Saturdays, 28/97.

What is the probability that a randomly selected leap year is a leap year? The probability that a randomly selected leap year contains 53 Sundays is (1) 7/366 (2) 28/183 (3) 1/7 (4) 2/7. We know that a leap year has 366 days. So we have 52 weeks and 2 days. Therefore, a leap year has 52 Sundays.

What is the probability that a leap year has 52 Sundays? In a leap year we have 366 days. So we have 52 weeks and 2 days. Out of these, 7 pairs of combinations, only 2 pairs have Sundays and the other 5 pairs do not have Sundays. Therefore, the probability that a leap year will only have 52 Sundays, 5/7.

## What is the probability that there are 53 Sundays in a leap year give the answer accurate to two decimal places?

A leap year has 366 days or 52 weeks and 2 odd days. The two odd days can be {Sunday, Monday}, {Monday, Tuesday}, {Tuesday, Wednesday}, {Wednesday, Thursday}, {Thursday, Friday}, {Friday, Saturday}, {Saturday, Sunday}. So there are 7 options, 2 of which have a Sunday. On the same subject : How many seconds are in July? So the probability of 53 Sundays is 2/7.

What is the probability of getting 52 Sundays in a non-leap year? So in a non-leap year there will be 52 Sundays and one extra day. 365 days – 364 days == 1 day. So the probability of getting 52 Sundays == 1- 1/7 == 6/7.