The weight of an organ in adult males has a bell-shaped distribution with a mean of 310 grams and a standard deviation of 20 grams. Use the empirical rule to determine the following
(a) About 95% of organs will be between what weights?
(b) What percentage of organs weighs between 250 grams and 370 grams?
(c) What percentage of organs weighs less than 250 grams or more than 370 grams?
(d) What percentage of organs weighs between 270 grams and 370 grams?
The weight of an organ in adult males has a bell-shaped distribution with a mean of 310 grams and a standard deviation of 20 grams
The weight of an organ in adult males has a bell-shaped distribution with a mean of 310 grams and a standard deviation of 20 grams. Use the empirical rule to determine the following (a) About 68 % of organs will be between what weights? (b) What percentage of organs weighs between 270 grams and 350 grams? (c) What percentage of organs weighs less than 270 grams or more than 3s0 grams? (d) What percentage of organs weighs between 250 grams and 350 grams? e
The weight of an organ in adult males has a bell-shaped distribution with a mean of 350 grams and a standard deviation of 40 grams. Use the empirical rule to determine the following. (a) About 95% of organs will be between what weights? (b) What percentage of organs weighs between 310 grams and 390 grams? (c) What percentage of organs weighs less than 310 grams or more than 390 grams? (d) What percentage of organs weighs between 270 grams and...
The weight of an organ in adult males has a bell-shaped distribution with a mean of 300 grams and a standard deviation of 40 grams. Use the empirical rule to determine the following. (a) About 95% of organs will be between what weights? (b) What percentage of organs weighs between 260 grams and 340 grams? (c) What percentage of organs weighs less than 260 grams or more than 340 grams? (d) What percentage of organs weighs between 180 grams and 340 grams?
The weight of an organ in adult males has a bell-shaped distribution with a mean of 350 G and a standard deviation of 20 grams. Use the empirical rule to determine the following. About 95% of organs will be between what weights? percentage of organs weigh between 290 and 410? What percentage of organs weigh less than 290 or more than 410 grams? what percentage of organs weighs between 330 and 390?
#18 The weight of an organ in adult males has a bell shaped distribution with a mean of 300 grams and a standard deviation of 30 grams. Use the empirical nude to determine the following (a) About 95% of organs will be between what weights? (b) What percentage of organs weighs between 270 grams and 330 grams? (c) What percentage of organs weighs less than 270 grams or more than 330 grams? (d) What percentage of organs weighs between 270...
The weight of an organ in adult males has a bell-shaped distribution with a mean of 325 grams and a standard deviation of 20 grams. Use the empirical rule to determine the following. (a) About 99.7 % of organs will be between what weights? (b) What percentage of organs weighs between 305 grams and 345 grams? (c) What percentage of organs weighs less than 305 grams or more than 345 grams? (d) What percentage of organs weighs between 305 grams...
The weight of an organ in adult males has a bell-shaped distribution with a mean of 320 grams and a standard deviation of 15 grams. Use the empirical rule to determine the following. (a) About 95% of organs will be between what weights?
Parts a-d 2.31 The weight of an organ in adult males has a bell shaped distribution with a mean of 320 grams and a standard deviation of 20 grams Use the empinical rule to determine the following (a) About 95% of organs will be between what weights? (b) What percentage of organs weighs between 300 grams and 340 grams? (c) What percentage of organs weighs less than 300 grams or more than 340 grams? (d) What percentage of organs weighs...
The weight of an organ in adult males has a bell-shaped distribution with a mean of 300 grams and a standard deviation of 35 grams Use the empiricaleta determine the following (a) About 95% of organs will be between what weights? (b) What percentage of organs weighs between 195 grams and 405 gram? What percentage of organs weighs less than 196 grams or more than 405 grams? d What percentage of organs weighs between 265 gram and 45 grams? a...
standard deviation of 50 grams. Use the empirical rule to determine the following. The weight of an organ in adult males has a bell-shaped distribution with a mean of 320 grams and (a) About 99.7% of organs will be between what weights? (b) What percentage of organs weighs between 270 grams and 370 grams? (c) What percentage of organs weighs less than 270 grams or more than 370 grams? (d) What percentage of organs weighs between 170 grams and 420...