Each element of the second order determinant is 1 and - 1 then ....... is the probability that value of determinant is not zero.

If each element of a second order determinant is either zero or one, what is the probability that the value of the determinant is positive? (Assume that the individual entries of the determinant are chosen independently, each value being assumed with probability (1)/(2) )

A determinant of the second order is made with the elements 0 and 1. If (m)/(n) be the probability that the determinant made is non negative, where m and n are relative primes, then the value of n-m is

Minimum value of a second order determinant whose each is either 1 or 2 is equal to

A determinant of second order is made with the elements 0 and 1. Find the number of determinants with non-negative values.

If the value of a third order determinant is 12, then the value of ther determinant formed by replacing each element by its co-factor will be 144

Number of second order determinants which have maximum values whose each entry is either -1 or 1 is equal to

Each coefficient in the equation ax^(2)+bx+c=0 is determined by throwing an ordinary die. The probability that roots of quadratic are imaginary, is

Each coefficient in the equation ax^(2)+bx+c=0 is determined by throwing an ordinary die. Q. The probability that roots of quadratics are real and district, is