Quick Answer: What Is The Probability Of Getting 53 Mondays In A Year Of 365 Days?

What is the probability of 53 Saturdays in a year?

0.140.14 or 1/7 is probability for 53 Saturdays in a non-leap year..

What is the probability that a year selected at random will contain 53 Sundays?

The probability that a leap year selected at random contains 53 Sunday 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. Hence, a leap year has 52 Sundays.

What is the probability that a leap year 366 days will have 53rd Monday?

A year has 52 weeks. Hence there will be 52 Sundays for sure. In a leap year there will be 52 Sundays and 2 days will be left. Of these total 7 outcomes, the favourable outcomes are 2….What is the probability of getting 53 Mondays in a leap year?A) 0.667B) 0.067C) 0.50D) 0.333

What is the probability that an ordinary year has 53 Sundays and 53 Monday?

Answer: (2) ∴ probability of getting 53 Sundays = 1 / 7.

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

0.140.14 or 1/7 is probability for 53 Saturdays in a non-leap year.

What is the probability of a non-leap year having 52 Mondays?

6/7 or 0.86 is probability for 52 Mondays in a non-leap year. The odd day may be either Sunday, Monday, Tuesday, Wednesday, Thursday, Friday or Saturday. Therefore, the total number of possible outcomes or elements of a sample space is 7. 0.86 is probability for 52 Mondays in a non-leap year.

What is probability of having 53 Mondays in a year?

Because we know 52 Mondays counted in total for a full week in a year, so we need 1 more Monday which we have to take from the remaining 2 days. And, we know total possible cases = 7. 2 cases which have Monday in the remaining 2 day = 2. So, Probability of leap year having 53 Monday is =27 .

What is the probability of getting 53 Saturdays in a year?

The odd day may be either Sunday, Monday, Tuesday, Wednesday, Thursday, Friday or Saturday. Therefore, the total number of possible outcome or elements of sample space is 7. 0.28 or 2/7 is probability for 53 Saturdays in a leap year.

What is the probability of having 53 Thursday in ordinary year?

The odd day may be either Sunday, Monday, Tuesday, Wednesday, Thursday, Friday or Saturday. Therefore, the total number of possible outcome or elements of sample space is 7. 0.14 or 1/7 is probability for 53 Thursdays in a non-leap year.

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

there can be 53 sundays in a leap year if that one extra day is a sunday. Therefore, the maximum number of sundays in an random year is 53. There is no way a leap year can have 54 sundays.

What is the probability that a leap year selected at random will contain 53 Thursday or 53 Fridays?

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 that a leap year has 53 Sundays or 53 Saturdays?

the probability of 53 Saturdays or Sundays = 2/7.

What is the probability of getting 53 Mondays in 365 days?

The odd day may be either Sunday, Monday, Tuesday, Wednesday, Thursday, Friday or Saturday. Therefore, the total number of possible outcome or elements of sample space is 7. 0.14 or 1/7 is probability for 53 Mondays in a non-leap year.

What is the probability that an ordinary year has?

question_answer Answers(3) Hence there will be 52 Sundays for sure. In an ordinary year, there will be 52 Sundays and 1 day will be left. This one day can be, Monday, Tuesday, Wednesday, Thursday, Friday, Saturday, Sunday. Of these total 7 outcomes, the favourable outcome is 1.

What is the probability of 52 Sunday in a year?

Out of these, 7 pairs of combinations, only 2 pairs have Sunday, and the other 5 pairs do not have Sundays. Therefore, the probability that a leap year will have only 52 Sundays is 5/7.

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