The number of different ways of preparing a garland using 6 distinct white roses and 5 distinct red roses such that no two red roses come together is
21600
43200
86400
151200
Box I contains 30 cards numbered I to 30 and Box II contains 20 cards numbered 31 to 50. A box is selected at random and a card is drawn from it. The number on the card is found to be a non-prime number. The probability that the card was drawn from Box I is :
Let Ec denote the complement of an event E. Let E1, E2 and E3 be any pairwise independent events withP(E1) > 0 and is equal to
A.
Two families with three members each and one family with four members are to be seated in a row. In how many ways can they be seated so that the same family members are not separated ?
2! 3! 4!
3!(4!)3
3! . 2 . (4!)
(3!)3 . (4!)
3 out of 6 vertices of a regular hexagon are chosen at a time at random. The probability that the triangle formed with these three vertices is an equilateral triangle, is
If 12 identical balls are to be placed in 3 identical boxes, then the probability that one of the boxes contains exactly 3 balls, is
Assuming the balls to be identical except for difference in colours, the number of ways in which one or more balls can be selected from 10 white, 9 green and 7 black balls is
880
629
630
630
Statement-1: The number of ways of distributing 10 identical balls in 4 distinct boxes such that no box is empty is 9C3
Statement-2: The number of ways of choosing any 3 places from 9 different places is 9C3 .
Statement-1 is true, Statement-2 is true; Statement-2 is a correct explanation for Statement-1.
Statement-1 is true, Statement-2 is true; Statement-2 is not a correct explanation for Statement-1.
Statement-1 is true, Statement-2 is false.
Statement-1 is true, Statement-2 is false.
If C and D are two events such that C ⊂ D and P(D) ≠0, then the correct statement among the following is:
P(C|D) = P(C)
P(C|D) ≥ P(C)
P(C|D) < P(C)
P(C|D) < P(C)