Answer:
( 67.18, 68.82)
Step-by-step explanation:
Let [tex]\mu[/tex] be the true (population) mean of statistics exam scores. We have a large random sample of n = 36 scores with a sample mean (sample mean score) of [tex]\bar{x} = 68[/tex]. We know that the population standard deviation is [tex]\sigma = 3[/tex]. A pivotal quantity is [tex](\bar{x}-\mu)/(3/\sqrt{36}) = (\bar{x}-\mu)/(3/6) = (68-\mu)/(1/2)[/tex] which is approximately normally distributed and [tex]P(-z_{0.05}\leq(68-\mu)/(1/2)\leq z_{0.05}) = 0.90[/tex] where [tex]-z_{0.05} =-1.6449[/tex], and so, [tex]P(-1.6449\leq(68-\mu)/(1/2)\leq 1.6449) = 0.90[/tex]. Therefore the 90% confidence interval is (68-(1/2)(1.6449), 68+(1/2)(1.6449)), i.e., ( 67.18, 68.82)
