15. Cans of regular soda have volumes with a mean of 13.99 oz and a standard deviation of 0.11oz. Is it unusual for a can to contain 14.23 oz of soda?
minimum "usual"'value? OZ
maximum "usual" value? OZ
15. Cans of regular soda have volumes with a mean of 13.99 oz and a standard...
Cans of regular soda have volumes with a mean of 13.77 oz and a standard deviation of 0.12 oz. Is it unusual for a can to contain 14.17 oz of soda? 3. (15) Cans of regular soda have volumes with a mean of 13.77 oz and a standard deviation Of 0.12 oz. Is it unusual for a can to contain 14.17 oz of soda? A. Minimum "usual" value B. Maximum "usual" value C. Is 14.17 oz an "unusual" volume? (Circle...
Cans of regular soda have volumes with a mean of 13.91 oz and a standard deviation of 0.11 oz. Is it unusual for a can to contain 14.23 oz of soda? Minimum "usual" valueequals nothing oz (Type an integer or a decimal.)
3.3.35 Cans of regular soda have volumes with a mean of 13 32 oz and a standard deviation of 0 12 oz Is it unusual for a can to contain 13 68 oz of soda? Minimum "usual valueoz (Type an integer or a decimal)
The volumes of soda in quart soda bottles are normally distributed with a mean of 32.3 oz and a standard deviation of 1.2 oz. What percentage of bottles contain less than 32 oz of soda?
Workers at a certain soda drink factory collected data on the volumes (in ounces) of simple random sample of 15 cans of the soda drink Those volumes have mean of 12.19 oz and a standard deviation of 0.14 oz and they appear be from a normally distributed population. If the workers Want the filling process to work so that almost all cans have volume between 11.88 and 12.52, and the standard deviation should be less than 0.16 oz. use the...
Workers at a certain soda drink factory collected data on the volumes (in ounces) of simple random sample of 15 cans of the soda drink Those volumes have mean of 12.19 oz and a standard deviation of 0.14 oz and they appear be from a normally distributed population. If the workers Want the filling process to work so that almost all cans have volume between 11.88 and 12.52, and the standard deviation should be less than 0.16 oz. use the...
Workers at a certain soda drink factory collected data on the volumes (in ounces) of a simple random sample of 15 cans of the soda drink. Those volumes have a mean of 12.19 oz and a standard deviation of 0.14 oz, and they appear to be from a normally distributed population. If the workers want the filling process to work so that almost all cans have volumes between 11.92 oz and 12.56 oz, the range rule of thumb can be...
Workers at a certain soda drink factory collected data on the volumes (in ounces) of a simple random sample of 24 cans of the soda drink. Those volumes have a mean of 12.19 oz and a standard deviation of 0.09 oz, and they appear to be from a normally distributed population. If the workers want the filling process to work so that almost all cans have volumes between 12.04 oz and 12.56 oz, the range rule of thumb can be...
Workers at a certain soda drink factory collected on the volumes (in ounces) of a simple random sample of 22 cans of the soda drink those volumes have a mean of 12.9 oz and a standard deviation of 0.14 oz and they appear to be from a normally distributed population if the workers want to fill in process to work so that almost all the cans have volumes between 11. 95 oz and 12. 59 oz the range rule of...
Soda six-packs Most soda cans list the volume of soda as 12 fluid ounces. As with all process, some variation occurs when filling soda cans. Suppose that a company knows this and tries to over-fill cans a bit, so that the actual volume of soda in a can follows a normal distribution with mean 12.1 fluid ounces and standard deviation .15 fluid ounces. a) What proportion of soda cans filled by this process will contain less than 12 fluid ounces?...