Assume that military aircraft use ejection seats designed for men weighing between 134.8 lb and 200...

Assume that military aircraft use ejection seats designed for men weighing between 138.4 lb and 211...

Assume that military aircraft use ejection seats designed for men weighing between 138.4 lb and 211 lb. If​ women's weights are normally distributed with a mean of 174.8 lb and a standard deviation of 42.1 ​lb, what percentage of women have weights that are within those​ limits? Are many women excluded with those​ specifications?

Assume that military aircraft use ejection seats designed for men weighing between 138.9 lb and 207...

Assume that military aircraft use ejection seats designed for men weighing between 138.9 lb and 207 lb. If​ women's weights are normally distributed with a mean of 170.1 lb and a standard deviation of 44.2 ​lb, what percentage of women have weights that are within those​ limits? Are many women excluded with those​ specifications?

Assume that military aircraft use ejection seats designed for men weighing between 148.1 lb and 208...

Assume that military aircraft use ejection seats designed for men weighing between 148.1 lb and 208 lb. If​ women's weights are normally distributed with a mean of 177.9 lb and a standard deviation of 42.2 ​lb, what percentage of women have weights that are within those​ limits? Are many women excluded with those​ specifications?

Assume that military aircraft use ejection seats designed for men weighing between 139.1 lb and 220...

Assume that military aircraft use ejection seats designed for men weighing between 139.1 lb and 220 lb. If​ women's weights are normally distributed with a mean of 171.5 lb and a standard deviation of 44.2 ​lb, what percentage of women have weights that are within those​ limits? Are many women excluded with those​ specifications?

Assume that military aircraft use ejection seats designed for men weighing between 132.8 and 209lb. If​...

Assume that military aircraft use ejection seats designed for men weighing between 132.8 and 209lb. If​ women's weights are normally distributed with a mean of 178.2lb and a standard deviation of 40.3 ​lb, what percentage of women have weights that are within those​ limits? Are many women excluded with those​ specifications?

Assume that military aircraft use ejection seats designed for men weighing between 136.3 Ib and 213...

Assume that military aircraft use ejection seats designed for men weighing between 136.3 Ib and 213 Ib. If women's weights are normally distributed with a mean of 176.3 Ib and a standard deviation of 40.5 Ib., what percentage of women have weights that are within those limits? Are many women excluded with those specifications? The percentage of women that weights between those limits is:

Assume that military aircraft use ejection seats designed for men weighing between 148.5 lb and 220...

Assume that military aircraft use ejection seats designed for men weighing between 148.5 lb and 220 lb. If​ women's weights are normally distributed with a mean of 172.4 lb and a standard deviation of 46.2 ​lb, what percentage of women have weights that are within those​ limits? Are many women excluded with those​ specifications? (can you also please explain the most simple way possible, i am having a hard time understanding) thank you.

Assume that military aircraft use ejection seats designed for men weighing between 139.2 lb and 206...

Assume that military aircraft use ejection seats designed for men weighing between 139.2 lb and 206 lb. If​ women's weights are normally distributed with a mean of 167.2 lb and a standard deviation of 44.8 lb, what percentage of women have weights that are within those​ limits? Are many women excluded with those​ specifications? The percentage of women that have weights between those limits is ____​% Are many women excluded with those​ specifications? A. ​No, the percentage of women who...

11. When women were allowed to become pilots, engineers needed to redesign the injection seats since...

11. When women were allowed to become pilots, engineers needed to redesign the injection seats since they were designed for men. They were designed for men weighing between 140 lb and 211 lb. Weights of women are normally distributed with a mean of 135 lb, and a standard deviation of 25.6 lb. (For full credit need to draw the curve and shade the area) a) If a women is randomly selected, find the probability of her weight is less than...

PROBLEM 1: Engineers redesign fighter aircraft seats to better match women. Before women became combat pilots,...

PROBLEM 1: Engineers redesign fighter aircraft seats to better match women. Before women became combat pilots, the ACES-11 ejector seats were designed for men weighing between 140 pounds and 211 pounds. The population of women has weights distributed normally, with an average of 143 pounds and a standard deviation of 29 pounds. If you select 36 different women at random, calculate the probability that your average sample weight will be between 137 and 139 pounds. POSSIBLE ANSWERS: a) 0.0534 b)...