Download presentation
Presentation is loading. Please wait.
Published byEdith Small Modified over 9 years ago
1
Aim: Normal Distribution Course: Alg. 2 & Trig. 3579 1 Do Now: Aim: How do we apply the characteristics of normal distribution? # of heads 012345678910 Frequency 1241120242011421 10 coins tossed 100 times result in the following table. Draw a histogram based on the table and determine the mean, x.
2
Aim: Normal Distribution Course: Alg. 2 & Trig. Normal Curve – the ‘Bell Curve’ also mode & median The most prominent probability distribution in statistics. symmetrical
3
Aim: Normal Distribution Course: Alg. 2 & Trig. Normal Distribution 99.5% of data values 95% of data values 68% of data values 34% 13.5% 68% of data lie within 1 standard deviation of mean. 95% of data within 2 standard deviations of mean. 99.5% of data within 3 standard deviations of mean.
4
Aim: Normal Distribution Course: Alg. 2 & Trig. Percentile 99.5% of data values 95% of data values 68% of data values 34% 13.5% percentile of a score or a measure indicates what percent of the total frequency scored at or below that measure. 2.516508497.5
5
Aim: Normal Distribution Course: Alg. 2 & Trig. In a normal distribution, the mean height of 10-year-old children is 138 centimeters and the standard deviation is 5 centimeters. Find the heights that are a)exactly one standard deviation above and below the mean b)two standard deviations above and below the mean Model Problem In a normal distribution, the mean height of 10-year-old children is 138 centimeters and the standard deviation is 5 centimeters. Find the heights that are a)exactly one standard deviation above and below the mean b)two standard deviations above and below the mean 128133143148
6
Aim: Normal Distribution Course: Alg. 2 & Trig. 10-year-old Model Problem 128133143148 2.516508497.5 Of the children: 68% are between 133 and 143 centimeters tall 95% are between 128 and 148 centimeters tall 34% are between 138 and 142 centimeters tall In a normal distribution, the mean height of 10-year- old children is 138 centimeters and the standard deviation is 5 centimeters. 34% 13.5% 68% 95%
7
Aim: Normal Distribution Course: Alg. 2 & Trig. 10-year-old Model Problem 128133143148 2.516508497.5 In a normal distribution, the mean height of 10-year- old children is 138 centimeters and the standard deviation is 5 centimeters. 34% 13.5% A ten-year-old who is 133 cm. tall is at the 16 th percentile; 16% are shorter, 84% taller Heights that would occur less than 5% of the time: heights of less than 128 cm. or more than 148 cm.
8
Aim: Normal Distribution Course: Alg. 2 & Trig. 2pt. Regents Question Assume that the ages of first-year college students are normally distributed with a mean of 19 years and standard deviation of 1 year. To the nearest integer, find the percentage of first-year college students who are between the ages of 18 years and 20 years inclusive. To the nearest integer, find the percentage of first-year college students who are 20 years or older.
9
Aim: Normal Distribution Course: Alg. 2 & Trig. Model Problem Scores on the Preliminary Scholastic Aptitude Test (PSAT) range from 20 to 80. For a certain population of students, the mean is 52 and the standard deviation is 9. a)A score at the 65 th percentile might be 1)49 2) 56 3) 64 4) 65 b)Which of the following scores can be expected to occur less than 3% of the time? 1)39 2) 47 3) 65 4) 71 34436170 2.516508497.5 34% 13.5%
10
Aim: Normal Distribution Course: Alg. 2 & Trig. Model Problem 1240 2.516508497.5 In the diagram, the shaded area represents approximately 68% of the scores in a normal distribution. If the scores range from 12 to 40 in this interval, find the standard deviation. 34% 13.5%
11
Aim: Normal Distribution Course: Alg. 2 & Trig. 4pt. Regents Question Twenty high school students took an examination and received the following scores: 70, 60, 75, 68, 85, 86, 78, 72, 82, 88, 88, 73, 74, 79, 86, 82, 90, 92, 93, 73 Determine what percent of the student scored within one standard deviation of the mean. Do the results of the examination approximate a normal distribution? Justify your answer.
12
Aim: Normal Distribution Course: Alg. 2 & Trig. Model Problem In 2000, over 1.2 million students across the country took college entrance exams. The average score on the verbal section showed no improvement over the average scores of the previous 4 years. The average score on the mathematics section was 3 points higher than the previous year’s average. SectionMeanStandard Deviation Math505111 Verbal514113 What is the probability that a student’s verbal score is from 401 to 514?
13
Aim: Normal Distribution Course: Alg. 2 & Trig. Model Problem In 2000, over 1.2 million students across the country took college entrance exams. The average score on the verbal section showed no improvement over the average scores of the previous 4 years. The average score on the mathematics section was 3 points higher than the previous year’s average. SectionMeanStandard Deviation Math505111 Verbal514113 What is the probability that a student’s math score is greater than 727?
14
Aim: Normal Distribution Course: Alg. 2 & Trig. Model Problem In 2000, over 1.2 million students across the country took college entrance exams. The average score on the verbal section showed no improvement over the average scores of the previous 4 years. The average score on the mathematics section was 3 points higher than the previous year’s average. SectionMeanStandard Deviation Math505111 Verbal514113 Both Susanna’s math and verbal scores were more than one standard deviation above the mean, but less than 2 standard deviations above the mean. What are the lower and upper limits of Susanna’s combined score?
Similar presentations
© 2024 SlidePlayer.com. Inc.
All rights reserved.