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Section 5.3

Section 5.3 . Normal Distributions: Finding Values. Examples 1 & 2. Find the z-score that corresponds to a cumulative area of 0.3632 . Find the z-score that has 10.75% of the distribution’s area to its right. Example 3 & 4.

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Section 5.3

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  1. Section 5.3 Normal Distributions: Finding Values

  2. Examples 1 & 2 • Find the z-score that corresponds to a cumulative area of 0.3632. • Find the z-score that has 10.75% of the distribution’s area to its right.

  3. Example 3 & 4 • Find the z-score that has 96.16% of the distribution’s area to the right. • Find the z-score for which 95% of the distribution’s area lies between z and –z.

  4. Examples 5 – 7 • P5 • P50 • P90

  5. Transforming a z-Score to an x-Value • Definition 1: Transforming a z-Score to an x-Value: • To transform a standard z-score to a data value x in a given population, use the formula

  6. Example 8 The speeds of vehicles along a stretch of highway are normally distributed, with a mean of 56 miles per hour and a standard deviation of 4 miles per hour. Find the speeds x corresponding to z-scores of 1.96, -2.33, and 0. Interpret your results. • 63.84 is above the mean, • 46.68 is below the mean, • 56 is the mean.

  7. TOTD • Use the Standard Normal Table to find the z-score that corresponds to the given cumulative area or percentile. • Find the indicated z-score. • Find the z-score that has 78.5% of the distribution’s area to its right.

  8. Example 9 The monthly utility bills in a city are normally distributed, with a mean of $70 and a standard deviation of $8. Find the x-values that correspond to z-scores of -0.75, 4.29, and -1.82. What can you conclude? • Negative z-scores represent bills that are lower than the mean.

  9. Example 10 Scores for a civil service exam are normally distributed, with a mean of 75 and a standard deviation of 6.5. To be eligible for civil service employment, you must score in the top 5%. What is the lowest score you can earn and still be eligible for employment? • The lowest score you can earn and still be eligible for employment is 86.

  10. Example 11 The braking distances of a sample of Ford F-150s are normally distributed. On a dry surface, the mean braking distance was 158 feet and the standard deviation was 6.51 feet. What is the longest braking distance on a dry surface one of these Ford F-150s could have and still be in the top 1%? • The longest breaking distance on a dry surface for an F-150 in the top 1% is 143 ft.

  11. Example 12 In a randomly selected sample of 1169 men ages 35-44, the mean total cholesterol level was 205 milligrams per deciliter with a standard deviation of 39.2 milligrams per deciliter. Assume the total cholesterol levels are normally distributed. Find the highest total cholesterol level a man in this 35-44 age group can have and be in the lowest 1%. • The value that separates the lowest 1% of total cholesterol levels for men in the 35 – 44 age group from the highest 99% is about 114.

  12. Example 13 The length of time employees have worked at a corporation is normally distributed, with a mean of 11.2 years and a standard deviation of 2.1 years. In a company cutback, the lowest 10% in seniority are laid off. What is the maximum length of time an employee could have worked and still be laid off? • The maximum length of time an employee could have worked and still be laid off is 8.5 years.

  13. TOTD • Find the indicated area under the standard normal curve. • To the right of z = 1.645 • Between z = -1.53 and z = 0

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