In​ 2008, the per capita consumption of soft drinks in Country A was reported to be...

In​ 2008, the per capita consumption of soft drinks in Country A was reported to be...

In​ 2008, the per capita consumption of soft drinks in Country A was reported to be 18.97 gallons. Assume that the per capita consumption of soft drinks in Country A is approximately normally​ distributed, with a mean of 18.97 gallons and a standard deviation of 5 gallons. Complete parts​ (a) through​ (d) below. a. What is the probability that someone in Country A consumed more than 12 gallons of soft drinks in​ 2008? The probability is ​(Round to four decimal...

In​ 2008, the per capita consumption of coffee in Country A was reported to be 18.43...

In​ 2008, the per capita consumption of coffee in Country A was reported to be 18.43 pounds. Assume that the per capita consumption of coffee in Country A is approximately normally​ distributed, with a mean of 18.43 pounds and a standard deviation of 4 pounds. Complete parts​ (a) through​ (d) below. a. What is the probability that someone in Country A consumed more than 11 pounds of coffee in​ 2008? The probability is nothing. ​(Round to four decimal places as​...

The annual per capita consumption of bottled water was 32.232.2 gallons. Assume that the per capita...

The annual per capita consumption of bottled water was 32.232.2 gallons. Assume that the per capita consumption of bottled water is approximately normally distributed with a mean of 32.232.2 and a standard deviation of 1313 gallons. a. What is the probability that someone consumed more than 3737 gallons of bottled​ water? b. What is the probability that someone consumed between 2525 and 3535 gallons of bottled​ water? c. What is the probability that someone consumed less than 2525 gallons of...

the annual per capita consumption of bottled water was 30.2 gallons. assume that the per capita...

the annual per capita consumption of bottled water was 30.2 gallons. assume that the per capita consumption of bottled water is approximately normally distributed with a mean of 30.2 and a standard deviation of 13 gallons. A. what is the probability that someone consumed more than 40 gallons of water. B.what is the probability that someone consumed between 30 and 40 gallons of water. C. what is the probability that someone consumed less than 30 gallons of water. D. 99%...

The annual per capita consumption of bottled water was 33.3 gallons. Assume that the per capita...

The annual per capita consumption of bottled water was 33.3 gallons. Assume that the per capita consumption of bottled water is approximately normally distributed with a mean of 33.3 and a standard deviation of 11 gallons. a. What is the probability that someone consumed more than 43 gallons of bottled​ water? b. What is the probability that someone consumed between 25 and 35 gallons of bottled​ water? c. What is the probability that someone consumed less than 25 gallons of...

The annual per capita consumption of bottled water was 31.931.9 gallons. Assume that the per capita...

The annual per capita consumption of bottled water was 31.931.9 gallons. Assume that the per capita consumption of bottled water is approximately normally distributed with a mean of 31.931.9 and a standard deviation of 1212 gallons. a. What is the probability that someone consumed more than 3232 gallons of bottled​ water? b. What is the probability that someone consumed between 2525 and 3535 gallons of bottled​ water? c. What is the probability that someone consumed less than 2525 gallons of...

The annual per capita consumption of bottled water was 33.3 gallons. Assume that the per capita...

The annual per capita consumption of bottled water was 33.3 gallons. Assume that the per capita consumption of bottled water is approximately normally distributed with a mean of 33.3 and a standard deviation of 12 gallons. a. What is the probability that someone consumed more than 38 gallons of bottled​ water? b. What is the probability that someone consumed between 20 and 30 gallons of bottled​ water? c. What is the probability that someone consumed less than 20 gallons of...

The annual per capita consumption of bottled water was 32.7 gallons. Assume that the per capita...

The annual per capita consumption of bottled water was 32.7 gallons. Assume that the per capita consumption of bottled water is approximately normally distributed with a mean of 32..7 and a standard deviation of 12 gallons. a. What is the probability that someone consumed more than 38 gallons of bottled​ water? b. What is the probability that someone consumed between 30 and 40 gallons of bottled​ water? c. What is the probability that someone consumed less than 30 gallons of...

The annual per capita consumption of bottled water was 33.333.3 gallons. Assume that the per capita...

The annual per capita consumption of bottled water was 33.333.3 gallons. Assume that the per capita consumption of bottled water is approximately normally distributed with a mean of 33.333.3 and a standard deviation of 1212 gallons. a. What is the probability that someone consumed more than 3838 gallons of bottled​ water? b. What is the probability that someone consumed between 2525 and 3535 gallons of bottled​ water? c. What is the probability that someone consumed less than 2525 gallons of...

The annual per capita consumption of bottled water was 30.9 gallons. Assume that the per capita...

The annual per capita consumption of bottled water was 30.9 gallons. Assume that the per capita consumption of bottled water is approximately normally distributed with a mean of 30.9 and a standard deviation of 11 gallons. a) What is the probability that someone consumed more than 36 gallons of bottled​ water? b) What is the probability that someone consumed between 20 and 30 gallons of bottled​ water? c) What is the probability that someone consumed less than 20 gallons of...