find the value z of a standard Normal variable that satisfies each of the given conditions. Use the value of z from Table A that comes closest to satisfying the condition. In each case, sketch a standard Normal curve with your value of z marked on the axis.
Find the point z with 68% of the observations falling below it. Round to two decimal places
Find the point z with 19% of the observations falling above it. Round to two decimal places.
find the value z of a standard Normal variable that satisfies each of the given conditions....
Use Table A to find the value z of a standard Normal variable that satisfies each of the following conditions. Use the value of z from Table A that comes closest to satisfying the condition. In each case, sketch a standard Normal curve with your value of z marked on the axis. (a) Find the point z with 68% of the observations falling below it. Enter your answer rounded to two decimal places. (b) Find the point z with 19%...
Use Table A to find the value z of a standard Normal variable that satisfies each of the following conditions. Use the value of z from Table A that comes closest to satisfying the condition. In each case, sketch a standard Normal curve with your value of z marked on the axis. (a) Find the point z with 68% of the observations falling below it. Enter your answer rounded to two decimal places. (b) Find the point z with 23%...
Use Table A to find the value z of a standard Normal variable that satisfies each of the following conditions. Use the value of : from Table A that comes closest to satisfying the condition. In each case, sketch a standard Normal curve with your value of z marked on the axis (a) Find the point z with 64% of the observations falling below it. Enter your answer rounded to two decimal place. (b) Find the point z with 25%...
Find the z value that satisties each of the following conditions(report the value of z that comes closest to satisfying the condition). In each case, sketcha standard Normal curve with your value of z marked on the axis. 7. 20% of the observations fall below z. (Sketch the graph and shade the given area) (20% = 0.20)That is, find the z value corresponding an area of 0.20 on the left of it. a) 30% of the observations fall above z....
Response Questions Part A To C Use to find the z-score that satisfies each of the following tions (report the value of z that comes closest to satisfyine condition). In each case, sketch a standard Normal curve w your value of z marked on the axis. (a) 20% of the observations fall below z. (b) 30% of the observations fall above z. (c) 30% of the observations fall below z.
Find the value zz of a standard Normal variable that satisfies each of the following conditions. (a) The point zz with 80% of the observations falling below it z=z= (b) The point zz with 90% of the observations falling above it z=z= please explain how you came to your solution . If you used the calculator please show the steps and what functions you used. Thank you
(1 point) Find the Z-score from the standard normal distribution that satisfies each of the following statements. Draw an appropriate diagram, shade the appropriate region that represents for each Z-scores. Round your answers to 2 decimal places. (a) The point z with 5.05 percent of the observations falling below it. ZE (b) The closest point z with 7.68 percent of the observations falling above it. z =
(1 point) Find the value of a standard Normal variable that satisfies each of the following conditions (a) The point z with 80% of the observations falling below it 2 (b) The point z with 30% of the observations falling above it (1 point) The thorax lengths in a population of male fruit flies follow a Normal distribution with mean 0.785 millimeters (mm) and standard deviation 0.074 mm. What are the median and the first and third quartiles of thorax...
Find the z-score from a standard normal distribution that satisfies each of the following statements. (a) The point z with 2.81 percent of the observations falling below it. z= equation editorEquation Editor (b) The closest point z with 21.94 percent of the observations falling above it. z= equation editorEquation Editor
Let Z be the standard normal variable. Find z if z satisfies the given value. (Round your answer to two decimal places.) P(−z < Z < z) = 0.9802