# Question: Can There Be 53 Sundays In A Year?

## What is the probability that an ordinary year has 53 Thursday?

0.14 or 1/7 is probability for 53 Thursdays in a non-leap year..

## What is the probability of getting 53 Sundays or 53 Mondays in the year 2019?

The year 2019 is not a leap year so it has 52 weeks and one day extra. If the first of the year is Sunday the 52nd week ends on Saturday and the extra day is Sunday. Therefore, if the first day of January is Sunday or Monday there are 100% Chances of 53 Sundays and 53 Mondays.

## What is the probability that a leap year selected at random contains 53 Thursday or 53 Friday?

3/7″For a leap year to have either 53 Thursday or 53 Friday, it must have them in the two days. 52 weeks and 2 days. So we can have any of these combinations, a Wednesday and Thursday, a Thursday and Friday, a Friday and Saturday. Thus the probability is 3/7.

## What is the probability of getting 54 Sundays in a leap year?

The probability of 54 Sundays in a leap year is 0.

## What is the probability of getting 53 Sundays in 2020?

Probability that leap year will have 53 Sundays is 2/7 i.e. probability that year will start with Saturday or Sunday. Probability that year is not a leap year is 303/400. Probability that non leap year will have 53 Sundays is 1/7 i.e. probability that year will start with Sunday.

## What is the probability of getting 52 Sundays?

5/7 or 0.71 is probability for 52 Sundays in a leap year. The two odd days may be the combination of Sunday & Monday, Monday & Tuesday, Tuesday & Wednesday, Wednesday & Thursday, Thursday & Friday, Friday & Saturday or Saturday & Sunday.

## What is the probability that an ordinary year has 53 Sundays Brainly?

Probability=1/7 Hope it helps you.

## What is the probability that Year 2100 will have 53 Sundays and 53 Mondays?

A leap year will have 53 Sundays and 53 Mondays if and only if January 1st is a Sunday. So the probability is close to 1/7.

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

1/7The probability of getting 53 sundays in a non- leap year is 1/7. So, the probability of getting 53 sundays in a non- leap year is 1/7.

## What is the probability that a leap year has 53 Fridays and 53 Saturdays?

Most of my answer still applies, but there are 41 leap years in each 400-year cycle which contain either 53 Fridays or 53 Saturdays. So the answer to the new question is 41/97, which is slightly less than 3/7.

## What is the probability of 53 Mondays in a year?

1/7There are seven days a week and one of the days is Monday. Hence the probability of getting 53 Mondays in a normal year is 1/7.