Section 6.3 Finding Probability Using the Normal Curve HAWKES LEARNING SYSTEMS math courseware specialists Copyright © 2008 by Hawkes Learning Systems/Quant Systems, Inc. All rights reserved.

HAWKES LEARNING SYSTEMS math courseware specialists Four basic types of probability problems: 1.Probability less than some value 2.Probability greater than some value 3.Probability between two values 4.Probability less than one value and greater than another value Continuous Random Variables 6.3 Finding the Probability Using the Normal Curve

HAWKES LEARNING SYSTEMS math courseware specialists Determine the probability: Deviation IQ scores, sometimes called Wechsler IQ scores, are scores with a mean of 100 and a standard deviation of 15. What percentage of the general population have IQ’s lower than 92? Continuous Random Variables 6.3 Finding the Probability Using the Normal Curve Solution:   100,   15, x  92 P(z <  0.53)   29.81%

HAWKES LEARNING SYSTEMS math courseware specialists Determine the probability: Deviation IQ scores, sometimes called Wechsler IQ scores, are scores with a mean of 100 and a standard deviation of 15. What percentage of the general population have IQ’s larger than 130? Continuous Random Variables 6.3 Finding the Probability Using the Normal Curve Solution:   100,   15, x  130 P(z > 2.00)   2.28%

HAWKES LEARNING SYSTEMS math courseware specialists Determine the probability: Deviation IQ scores, sometimes called Wechsler IQ scores, are scores with a mean of 100 and a standard deviation of 15. What percentage of the general population have IQ’s between 90 and 110? Continuous Random Variables 6.3 Finding the Probability Using the Normal Curve Solution:   100,   15, x 1  90 and x 2  110 P(  0.67 < z < 0.67)   49.72%

HAWKES LEARNING SYSTEMS math courseware specialists Determine the probability: Deviation IQ scores, sometimes called Wechsler IQ scores, are scores with a mean of 100 and a standard deviation of 15. What percentage of the general population have IQ’s less than 80 and greater than 120? Continuous Random Variables 6.3 Finding the Probability Using the Normal Curve Solution:   100,   15, x 1  80 and x 2  120 P(z 1.33)   18.35%

HAWKES LEARNING SYSTEMS math courseware specialists Determine the probability: In a recent year, the ACT scores for high school students with a 3.50 to 4.00 GPA were normally distributed, with a mean of 24.2 and a standard deviation of 4.2. A student who took the ACT during this time is selected. Find the probability that the student’s ACT score is less than 20. Continuous Random Variables 6.3 Finding the Probability Using the Normal Curve Solution:   24.2,   4.2, x  20 P(z <  1.00)   15.87%

HAWKES LEARNING SYSTEMS math courseware specialists Determine the probability: In a recent year, the ACT scores for high school students with a 3.50 to 4.00 GPA were normally distributed, with a mean of 24.2 and a standard deviation of 4.2. A student who took the ACT during this time is selected. Find the probability that the student’s ACT score is greater than 31. Continuous Random Variables 6.3 Finding the Probability Using the Normal Curve Solution:   24.2,   4.2, x  31 P(z > 1.62)   5.26%

HAWKES LEARNING SYSTEMS math courseware specialists Determine the probability: In a recent year, the ACT scores for high school students with a 3.50 to 4.00 GPA were normally distributed, with a mean of 24.2 and a standard deviation of 4.2. A student who took the ACT during this time is selected. Find the probability that the student’s ACT score is between 25 and 32. Continuous Random Variables 6.3 Finding the Probability Using the Normal Curve Solution:   24.2,   4.2, x 1  25 and x 2  32 P(0.19 < z < 1.86)   39.33%