each trial, the mean of the distribution is assumed to be mp, where n is the number of independent trials. 4 Point Extra Credit: Derive the Expected Value of X by constructing a TABLE to describe...
each trial, the mean of the distribution is assumed to be mp, where n is the number of independent trials. 4 Point Extra Credit: Derive the Expected Value of X by constructing a TABLE to describe the probability density funetion b and the cumulative distribution function for the binomial distribution with n-13 and p37 (forx-0,1,2, ...n). Solve using the binomial formula to 8 decimal places. Additional Point Extra Credit: Using the TABLE you constructed, also find the Varianee. Compare the value you fund with the assumed value of ơ2 for binomial distribution (
each trial, the mean of the distribution is assumed to be mp, where n is the number of independent trials. 4 Point Extra Credit: Derive the Expected Value of X by constructing a TABLE to describe the probability density funetion b and the cumulative distribution function for the binomial distribution with n-13 and p37 (forx-0,1,2, ...n). Solve using the binomial formula to 8 decimal places. Additional Point Extra Credit: Using the TABLE you constructed, also find the Varianee. Compare the value you fund with the assumed value of ơ2 for binomial distribution (