Suppose the amount of milk sold daily at a milk booth is distributed with a minimum of 200 litres and a maximum of 600 litres with probability density function
`f(x)={{:(k, 200 le x le 600), (0, "otherwise"):}`
Find
the value of k

Suppose the amount of milk sold daily at a milk booth is distributed with a minimum of 200 litres and a maximum of 600 litres with probability density function f(x)={{:(k, 200 le x le 600), (0, "otherwise"):} Find the probability that daily sales will fall between 300 litres and 500 litres?

Suppose the amount of milk sold daily at a milk booth is distributed with a minimum of 200 litres and a maximum of 600 litres with probability density function f(x)={{:(k, 200 le x le 600), (0, "otherwise"):} Find the distribution function

Suppose the amount of milk sold daily at a ,mile booth is distributed with a minimum of 200 litres and a maximum of 600 litres with probability density function f(x)= {(k,200lt=xlt=600),(0, "otherwise"):} . Find (i) the value of k (ii) the distribution function (iii) the probability that daily sales will fall between 300 litres and 500 litres ?

The probability density function of X is given by f(x)={{:(kxe^(-2x), "for " x gt 0), (0, "for " x le 0):} Find the value of k.

The probability density function of X is given by f(x)={{:(ke^(-x/3), "for " x gt 0), (0, "for " x le 0):} Find the value of k

The probability density function of X is f(x)={{:(x, 0 lt x lt 1), (2-x, 1 le x lt 2), (0, "otherwise"):} Find P(0.2 le X lt 0.6)

The probability density function of X is f(x)={{:(x, 0 lt x lt 1), (2-x, 1 le x lt 2), (0, "otherwise"):} Find P(0.5 le X lt 1.5)