In: Statistics and Probability
A survey of 2645 consumers by DDB Needham Worldwide of Chicago
for public relations agency Porter/Novelli showed that how a
company handles a crisis when at fault is one of the top influences
in consumer buying decisions,with 73% claiming it is an influence.
Quality of product was the number one influence, with 96% of
consumers stating that quality influences their buying decisions.
How a company handles complaints was number two, with 85% of
consumers reporting it as an influence in their buying decisions.
Suppose a random sample of 1,200 consumers is taken and each is
asked which of these three factors influence their buying
decisions.
Appendix A Statistical Tables
a. What is the probability that more than 910
consumers claim that how a company handles a crisis when at fault
is an influence in their buying decisions?
b. What is the probability that fewer than 1,125
consumers claim that quality of product is an influence in their
buying decisions?
c. What is the probability that between 81% and
84% of consumers claim that how a company handles complaints is an
influence in their buying decisions?
*(Round the values of z to 2 decimal places. Round the
intermediate values to 4 decimal places. Round your answer to 4
decimal places.)
**(Round the values of z to 2 decimal places. Round the
intermediate values to 4 decimal places. Round your answer to 5
decimal places.)
a) The probability that more than 910 consumers claim that how a company handles a crisis when at fault is an influence in their buying decisions is is 0.01355.
n = 1200, p = 0.73
x = 910
By applying normal distribution:-
z = 2.21
P( z > 2.21) = 0.01355
b) The probability that fewer than 1,125 consumers claim that quality of product is an influence in their buying decisions is 0.00003.
n = 1200, p = 0.96
x = 1125
By applying normal distribution:-
z = - 3.98
P( z < - 3.98) = 0.00003
c) The probability that between 81% and 83% of consumers claim that how a company handles complaints is an influence in their buying decisions is 0.16597.
n = 1200, p = 0.85
p1 = 0.81
p2 = 0.84
z1 = - 3.88
z2 = - 0.97
P( - 3.88 < z < - 0.97) = P(z > - 3.88) - P(z > - 0.97)
P( - 3.88 < z < - 0.97) = 0.99995- 0.83398
P( - 3.88 < z < - 0.97) = 0.16597