red blood cell count for a population of adult males can be approximated by a normal...
5) The blood cell counts (in million cells per microliter) for a population of adult males can be approximated by a normal distribution, with a mean of 5.4 million cells per microliter and a standard deviation of 0.4 million cells per microliter. 5) The blood cell counts (in million cells per microliter) for a population of adult males can be approximated by a normal distribution, with a mean of 5.4 million cells per microliter and a standard deviation of 0.4...
The red blood cell counts (in millions of cells per microliter) for a population of adult males can be approximated by a normal distribution, with a mean of 5.2 million cells per microliter and a standard deviation of 0.4 million cells per microliter. (a) What is the minimum red blood cell count that can be in the top 22% of counts? b) What is the maximum red blood cell count that can be in the bottom of counts 11% of...
The red blood cell counts (in millions of cells per microliter) for a population of adult males can be approximated by a normal distribution, with a mean of 5.5 million cells per microliter and a standard deviation of 0.3 million cells per microliter. (a) What is the minimum red blood cell count that can be in the top 24% of counts? (b) What is the maximum red blood cell count that can be in the bottom 12% of counts?
the red blood cell counts (in millions of cells per microliter) for a population of adult males can be approximated by a normal distribution, with a mean of 5.5 million cells per microliter and standard deviation of .04 million cells per microliter. what is the minimum red blood cell count that can be in the top 23% of counts? what is the maximum red blood cell count that can be in the bottom 14% of counts? A) the minimum red...
Question A only 4. A simple random sample of 50 adults (including males and females) is obtained, and each person's red blood cell count (in cells per micro-liter) is measured. The sample mean is 4.63, The population standard deviation for red blood cell counts is 0.54. a. Find the best point estimate of the mean red blood cell count of adults. 2mks b. Construct a 99% confidence interval estimate of the mean red blood cell count of adults 4mks
Red blood cell count is distributed normally with a mean of 5.4 million cells /uL of blood and a standard deviation of 0.7 million cells /uL of blood. What is the probability of a healthy adult having more than 6.5 million cells /uL of blood? (Write your answer as 0.XXX)
Please explain in detail QUESTION 10 Red blood cell count is distributed normally with a mean of 5.4 million cells /ulL of blood and a standard deviation of 0.7 million cells /uL of blood. What is the probability of a healthy adult having less than 7 million cells /uL of blood?
Assume that the red blood cell counts of women are normally distributed with a mean of 4.577 million cells per microliter and a standard deviation of 0.382 million cells per microliter. Approximately what percentage of women have red blood cell counts in the normal range from 4.2 to 5.4 million cells per microliter? Round to two decimal places. A. 82.26% B. 4.09% C. 17.69% D. 16.11%
After 6 readings an individual is found to have an average red blood cell count of 25 with a sample standard deviation of 5 for a single reading. Assume that counts follow a normal distribution. A normal count is 28. Test the hypothesis that the individual is below average.
The average red blood cell count in young women is assumed to be approximately 4.5 million red cells per cubic milliliter of blood. Red cell counts taken on a randomly drawn sample of 12 women athletes yield the data given below. 5.2, 4.7, 4.3, 5.5, 4.5, 4.5, 5.5, 4.5, 5.3, 4.7, 5.1, 4.8 (sample data: red cell counts per cubic ml (in millions)) Based on this data, do women athletes appear to have higher red cell counts than the population...