A soft drink machine outputs a mean of 28 ounces per cup. The machine's output is...

A soft-drink machine is regulated so that it discharges an average of 6.6 ounces per cup....

A soft-drink machine is regulated so that it discharges an average of 6.6 ounces per cup. The amount of drink is normally distributed with a standard deviation equal to 0.5 ounces. Part 1:  (3 points ) What is the probability that a cup will contain more than 7.54 ounces? Part 2:  (3 points ) What is the probability that a cup contains between 6.54 and 7.06 ounces? Part 3: (4 points ) Suppose we want to regulate this machine so that only...

A vending machine automatically pours soft drinks into cups. The amount of soft drink dispensed into...

A vending machine automatically pours soft drinks into cups. The amount of soft drink dispensed into a cup is normally distributed with a mean of 7.6 ounces and standard deviation of 0.4 ounce. Examine the figure below and answer the following questions. (a) Estimate the probability that the machine will overflow an 8-ounce cup. (Round your answer to two decimal places.) (b) Estimate the probability that the machine will not overflow an 8-ounce cup. (Round your answer to two decimal...

A soft drink machine discharges an average of 345 ml per cup. The amount of drink...

A soft drink machine discharges an average of 345 ml per cup. The amount of drink is normally distributed with standard deviation of 30 ml. What fraction of cups will contain more than 376 ml? (Keep 4 decimals)

A soft drink dispensing machine uses plastic cups that hold a maximum of 16 ounces. The...

A soft drink dispensing machine uses plastic cups that hold a maximum of 16 ounces. The machine is set to dispense a mean of 14.5 ounces of liquid. The amount of liquid that is actually dispensed varies. It is normally distributed with a standard deviation of 0.5 ounces. Use the Empirical Rule (68%-95%-99.7%) to answer these questions. (c) What percentage of the time does the machine dispense more than 16 ounces of liquid?   % (two decimal places)

The amounts a soft drink machine is designed to dispense for each drink are normally distributed,...

The amounts a soft drink machine is designed to dispense for each drink are normally distributed, with the mean of 11.0 fluid ounces and a standard deviation of 0.3 fluid ounce. A drink is randomly selected. (a) Find the probability that the drink is than 11.7 fluid ounces. (b) Find the probability that the drink is between 11.5 and 11.7 ounces (c) Find the probability that the drink is more than 12.4 fluid ounces. Can this be considered an unusual...

The amounts a soft drink machine is designed to dispense for each drink are normally? distributed,...

The amounts a soft drink machine is designed to dispense for each drink are normally? distributed, with a mean of 11.9 fluid ounces and a standard deviation of 0.2 fluid ounce. A drink is randomly selected. ? (a) Find the probability that the drink is less than 11.8 fluid ounces. ? (b) Find the probability that the drink is between 11.5 and 11.8 fluid ounces. ? (c) Find the probability that the drink is more than 12.4 fluid ounces. Can...

The amounts a soft drink machine is designed to dispense for each drink are normally? distributed,...

The amounts a soft drink machine is designed to dispense for each drink are normally? distributed, with a mean of 12.1 fluid ounces and a standard deviation of 0.3 fluid ounce. A drink is randomly selected. ?(a) Find the probability that the drink is less than 12 fluid ounces. ?(b) Find the probability that the drink is between 11.9 and 12 fluid ounces. ?(c) Find the probability that the drink is more than 12.5 fluid ounces. Can this be considered...

The amounts a soft drink machine is designed to dispense for each drink are normally​ distributed,...

The amounts a soft drink machine is designed to dispense for each drink are normally​ distributed, with a mean of 11.711.7 fluid ounces and a standard deviation of 0.20.2 fluid ounce. A drink is randomly selected. ​(a) Find the probability that the drink is less than 11.611.6 fluid ounces. ​(b) Find the probability that the drink is between 11.411.4 and 11.611.6 fluid ounces. ​(c) Find the probability that the drink is more than 1212 fluid ounces. Can this be considered...

The amounts a soft drink machine is designed to dispense for each drink are normally? distributed,...

The amounts a soft drink machine is designed to dispense for each drink are normally? distributed, with a mean of 12.4 fluid ounces and a standard deviation of 0.2 fluid ounce. A drink is randomly selected.?(a) Find the probability that the drink is less than 12.3 fluid ounces.?(b) Find the probability that the drink is between 12.2 and 12.3 fluid ounces.?(c) Find the probability that the drink is more than 12.8 fluid ounces. Can this be considered an unusual? event?...

A soft drink filling machine, when in perfect adjustment, fills bottles with 12 ounces of soft...

A soft drink filling machine, when in perfect adjustment, fills bottles with 12 ounces of soft drink. A random sample of 25 bottles is selected, and the contents are measured. The sample yielded a mean content of 11.88 ounces, with a sample standard deviation of 0.16 ounce. Set up the hypotheses, and with a .05 level of significance, test to see if the machine is in perfect adjustment. Show your work.