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Understanding the Normal Curve

L
Lori Rapp

The document discusses the normal curve and its key properties. A normal curve is a bell-shaped distribution that is symmetrical around the mean value, with half of the data falling above and half below the mean. The standard deviation measures how spread out the data is from the mean. In a normal distribution, 68% of the data lies within 1 standard deviation of the mean, 95% within 2 standard deviations, and 99.7% within 3 standard deviations, following the 68-95-99.7 rule.

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NORMAL CURVE
WHAT IS THE NORMAL CURVE
WHAT IS THE NORMAL CURVE ➤ This is when the data is distributed evenly around a middle value.
WHAT IS THE NORMAL CURVE ➤ This is when the data is distributed evenly around a middle value. ➤ The data is symmetrical about the middle value.
WHAT IS THE NORMAL CURVE ➤ This is when the data is distributed evenly around a middle value. ➤ The data is symmetrical about the middle value. ➤ This is called a ‘Bell Curve’ because it looks like a bell. Bell by casino is licensed by Public Domain.
WHAT IS THE NORMAL CURVE ➤ This is when the data is distributed evenly around a middle value. ➤ The data is symmetrical about the middle value. ➤ This is called a ‘Bell Curve’ because it looks like a bell. ➤ Half the data falls above and half below the middle value. 50% 50%
MEAN - MEDIAN - MODE
➤ The mean is the average of all the data in the distribution. MEAN - MEDIAN - MODE
➤ The mean is the average of all the data in the distribution. ➤ The median is the middle value of the data ordered from smallest to largest. MEAN - MEDIAN - MODE
➤ The mean is the average of all the data in the distribution. ➤ The median is the middle value of the data ordered from smallest to largest. ➤ The mode is the value that occurs most often in the data. MEAN - MEDIAN - MODE
➤ The mean is the average of all the data in the distribution. ➤ The median is the middle value of the data ordered from smallest to largest. ➤ The mode is the value that occurs most often in the data. ➤ In a normal distribution, the mean, median, and mode are the same. MEAN - MEDIAN - MODE
STANDARD DEVIATION
➤ The standard deviation is how spread out the numbers are from the middle value. STANDARD DEVIATION
➤ The standard deviation is how spread out the numbers are from the middle value. ➤ Data is said to fall within a specific number of standard deviations when it is not the middle value. STANDARD DEVIATION
➤ The standard deviation is how spread out the numbers are from the middle value. ➤ Data is said to fall within a specific number of standard deviations when it is not the middle value. STANDARD DEVIATION +1−1
➤ The standard deviation is how spread out the numbers are from the middle value. ➤ Data is said to fall within a specific number of standard deviations when it is not the middle value. STANDARD DEVIATION +1−1 +2−2
➤ The standard deviation is how spread out the numbers are from the middle value. ➤ Data is said to fall within a specific number of standard deviations when it is not the middle value. STANDARD DEVIATION +1−1 +2−2 +3−3
➤ The standard deviation is how spread out the numbers are from the middle value. ➤ Data is said to fall within a specific number of standard deviations when it is not the middle value. ➤ A normal distribution follows the 68-95-99.7 rule. STANDARD DEVIATION +1−1 +2−2 +3−3
68-95-99.7 RULE
➤ 68% of the data falls within 1 standard deviation of the middle value. 68-95-99.7 RULE +1−1
➤ 68% of the data falls within 1 standard deviation of the middle value. 68-95-99.7 RULE 68% of the data +1−1
➤ 68% of the data falls within 1 standard deviation of the middle value. ➤ 95% of the data falls within 2 standard deviations of the middle value. 68-95-99.7 RULE +2−2
➤ 68% of the data falls within 1 standard deviation of the middle value. ➤ 95% of the data falls within 2 standard deviations of the middle value. 68-95-99.7 RULE 95% of the data +2−2
➤ 68% of the data falls within 1 standard deviation of the middle value. ➤ 95% of the data falls within 2 standard deviations of the middle value. ➤ 99.7% of the data falls within 3 standard deviations of the middle value. 68-95-99.7 RULE +3−3
➤ 68% of the data falls within 1 standard deviation of the middle value. ➤ 95% of the data falls within 2 standard deviations of the middle value. ➤ 99.7% of the data falls within 3 standard deviations of the middle value. 68-95-99.7 RULE 99.7% of the data +3−3
➤ The middle value represents 50%. PERCENTS AT EACH STANDARD DEVIATION +1−1 +2−2 +3−3 50%
➤ The middle value represents 50%. ➤ Recall that 68% of the data falls within 1 standard deviation of the mean. PERCENTS AT EACH STANDARD DEVIATION 68% of the data +1−1 +2−2 +3−3 50%
➤ The middle value represents 50%. ➤ Recall that 68% of the data falls within 1 standard deviation of the mean. ➤ Half the 68% falls above and half below the 50%. PERCENTS AT EACH STANDARD DEVIATION +1−1 +2−2 +3−3 50% 34% of the data 34% of the data
➤ The middle value represents 50%. ➤ Recall that 68% of the data falls within 1 standard deviation of the mean. ➤ Half the 68% falls above and half below the 50%. ➤ 1 standard deviation below the mean is 50% - 34% = 16%. PERCENTS AT EACH STANDARD DEVIATION +1−1 +2−2 +3−3 50% 34% of the data 16%
➤ The middle value represents 50%. ➤ Recall that 68% of the data falls within 1 standard deviation of the mean. ➤ Half the 68% falls above and half below the 50%. ➤ 1 standard deviation below the mean is 50% - 34% = 16%. ➤ 1 standard deviation above the mean is 50% + 34% = 84% PERCENTS AT EACH STANDARD DEVIATION +1−1 +2−2 +3−3 50%16% 84% 34% of the data
➤ Recall that 95% of the data falls within 2 standard deviations of the mean. PERCENTS AT EACH STANDARD DEVIATION (CON’T) +1−1 +2−2 +3−3 50%16% 84% 95% of the data
➤ Recall that 95% of the data falls within 2 standard deviations of the mean. ➤ Half the 95% falls above and half below the 50%. PERCENTS AT EACH STANDARD DEVIATION (CON’T) +1−1 +2−2 +3−3 50% 47.5% of the data 47.5% of the data 16% 84%
➤ Recall that 95% of the data falls within 2 standard deviations of the mean. ➤ Half the 95% falls above and half below the 50%. ➤ 2 standard deviations below the mean is 50% - 47.5% = 2.5%. PERCENTS AT EACH STANDARD DEVIATION (CON’T) +1−1 +2−2 +3−3 50% 47.5% of the data 16% 84%2.5%
➤ Recall that 95% of the data falls within 2 standard deviations of the mean. ➤ Half the 95% falls above and half below the 50%. ➤ 2 standard deviations below the mean is 50% - 47.5% = 2.5%. ➤ 2 standard deviation2 above the mean is 50% + 47.5% = 97.5% PERCENTS AT EACH STANDARD DEVIATION (CON’T) +1−1 +2−2 +3−3 50%16% 84% 47.5% of the data 2.5% 97.5%
➤ Recall that 99.7% of the data falls within 3 standard deviations of the mean. PERCENTS AT EACH STANDARD DEVIATION (CON’T) +1−1 +2−2 +3−3 50%16% 84%2.5% 97.5% 99.7% of the data
➤ Recall that 99.7% of the data falls within 3 standard deviations of the mean. ➤ Half the 99.7% falls above and half below the 50%. PERCENTS AT EACH STANDARD DEVIATION (CON’T) +1−1 +2−2 +3−3 50% 49.85% of the data 49.85% of the data 16% 84%2.5% 97.5%
➤ Recall that 99.7% of the data falls within 3 standard deviations of the mean. ➤ Half the 99.7% falls above and half below the 50%. ➤ 3 standard deviations below the mean is 50% - 49.85% = 0.15%. PERCENTS AT EACH STANDARD DEVIATION (CON’T) +1−1 +2−2 +3−3 50% 49.85% of the data 16% 84%2.5% 97.5%0.15%
➤ Recall that 99.7% of the data falls within 3 standard deviations of the mean. ➤ Half the 99.7% falls above and half below the 50%. ➤ 3 standard deviations below the mean is 50% - 49.85% = 0.15%. ➤ 3 standard deviations above the mean is 50% + 49.85% = 99.85%. PERCENTS AT EACH STANDARD DEVIATION (CON’T) +1−1 +2−2 +3−3 50%16% 84% 49.85% of the data 2.5% 97.5%0.15% 99.85%

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Understanding the Normal Curve

  • 2. WHAT IS THE NORMAL CURVE
  • 3. WHAT IS THE NORMAL CURVE ➤ This is when the data is distributed evenly around a middle value.
  • 4. WHAT IS THE NORMAL CURVE ➤ This is when the data is distributed evenly around a middle value. ➤ The data is symmetrical about the middle value.
  • 5. WHAT IS THE NORMAL CURVE ➤ This is when the data is distributed evenly around a middle value. ➤ The data is symmetrical about the middle value. ➤ This is called a ‘Bell Curve’ because it looks like a bell. Bell by casino is licensed by Public Domain.
  • 6. WHAT IS THE NORMAL CURVE ➤ This is when the data is distributed evenly around a middle value. ➤ The data is symmetrical about the middle value. ➤ This is called a ‘Bell Curve’ because it looks like a bell. ➤ Half the data falls above and half below the middle value. 50% 50%
  • 7. MEAN - MEDIAN - MODE
  • 8. ➤ The mean is the average of all the data in the distribution. MEAN - MEDIAN - MODE
  • 9. ➤ The mean is the average of all the data in the distribution. ➤ The median is the middle value of the data ordered from smallest to largest. MEAN - MEDIAN - MODE
  • 10. ➤ The mean is the average of all the data in the distribution. ➤ The median is the middle value of the data ordered from smallest to largest. ➤ The mode is the value that occurs most often in the data. MEAN - MEDIAN - MODE
  • 11. ➤ The mean is the average of all the data in the distribution. ➤ The median is the middle value of the data ordered from smallest to largest. ➤ The mode is the value that occurs most often in the data. ➤ In a normal distribution, the mean, median, and mode are the same. MEAN - MEDIAN - MODE
  • 13. ➤ The standard deviation is how spread out the numbers are from the middle value. STANDARD DEVIATION
  • 14. ➤ The standard deviation is how spread out the numbers are from the middle value. ➤ Data is said to fall within a specific number of standard deviations when it is not the middle value. STANDARD DEVIATION
  • 15. ➤ The standard deviation is how spread out the numbers are from the middle value. ➤ Data is said to fall within a specific number of standard deviations when it is not the middle value. STANDARD DEVIATION +1−1
  • 16. ➤ The standard deviation is how spread out the numbers are from the middle value. ➤ Data is said to fall within a specific number of standard deviations when it is not the middle value. STANDARD DEVIATION +1−1 +2−2
  • 17. ➤ The standard deviation is how spread out the numbers are from the middle value. ➤ Data is said to fall within a specific number of standard deviations when it is not the middle value. STANDARD DEVIATION +1−1 +2−2 +3−3
  • 18. ➤ The standard deviation is how spread out the numbers are from the middle value. ➤ Data is said to fall within a specific number of standard deviations when it is not the middle value. ➤ A normal distribution follows the 68-95-99.7 rule. STANDARD DEVIATION +1−1 +2−2 +3−3
  • 20. ➤ 68% of the data falls within 1 standard deviation of the middle value. 68-95-99.7 RULE +1−1
  • 21. ➤ 68% of the data falls within 1 standard deviation of the middle value. 68-95-99.7 RULE 68% of the data +1−1
  • 22. ➤ 68% of the data falls within 1 standard deviation of the middle value. ➤ 95% of the data falls within 2 standard deviations of the middle value. 68-95-99.7 RULE +2−2
  • 23. ➤ 68% of the data falls within 1 standard deviation of the middle value. ➤ 95% of the data falls within 2 standard deviations of the middle value. 68-95-99.7 RULE 95% of the data +2−2
  • 24. ➤ 68% of the data falls within 1 standard deviation of the middle value. ➤ 95% of the data falls within 2 standard deviations of the middle value. ➤ 99.7% of the data falls within 3 standard deviations of the middle value. 68-95-99.7 RULE +3−3
  • 25. ➤ 68% of the data falls within 1 standard deviation of the middle value. ➤ 95% of the data falls within 2 standard deviations of the middle value. ➤ 99.7% of the data falls within 3 standard deviations of the middle value. 68-95-99.7 RULE 99.7% of the data +3−3
  • 26. ➤ The middle value represents 50%. PERCENTS AT EACH STANDARD DEVIATION +1−1 +2−2 +3−3 50%
  • 27. ➤ The middle value represents 50%. ➤ Recall that 68% of the data falls within 1 standard deviation of the mean. PERCENTS AT EACH STANDARD DEVIATION 68% of the data +1−1 +2−2 +3−3 50%
  • 28. ➤ The middle value represents 50%. ➤ Recall that 68% of the data falls within 1 standard deviation of the mean. ➤ Half the 68% falls above and half below the 50%. PERCENTS AT EACH STANDARD DEVIATION +1−1 +2−2 +3−3 50% 34% of the data 34% of the data
  • 29. ➤ The middle value represents 50%. ➤ Recall that 68% of the data falls within 1 standard deviation of the mean. ➤ Half the 68% falls above and half below the 50%. ➤ 1 standard deviation below the mean is 50% - 34% = 16%. PERCENTS AT EACH STANDARD DEVIATION +1−1 +2−2 +3−3 50% 34% of the data 16%
  • 30. ➤ The middle value represents 50%. ➤ Recall that 68% of the data falls within 1 standard deviation of the mean. ➤ Half the 68% falls above and half below the 50%. ➤ 1 standard deviation below the mean is 50% - 34% = 16%. ➤ 1 standard deviation above the mean is 50% + 34% = 84% PERCENTS AT EACH STANDARD DEVIATION +1−1 +2−2 +3−3 50%16% 84% 34% of the data
  • 31. ➤ Recall that 95% of the data falls within 2 standard deviations of the mean. PERCENTS AT EACH STANDARD DEVIATION (CON’T) +1−1 +2−2 +3−3 50%16% 84% 95% of the data
  • 32. ➤ Recall that 95% of the data falls within 2 standard deviations of the mean. ➤ Half the 95% falls above and half below the 50%. PERCENTS AT EACH STANDARD DEVIATION (CON’T) +1−1 +2−2 +3−3 50% 47.5% of the data 47.5% of the data 16% 84%
  • 33. ➤ Recall that 95% of the data falls within 2 standard deviations of the mean. ➤ Half the 95% falls above and half below the 50%. ➤ 2 standard deviations below the mean is 50% - 47.5% = 2.5%. PERCENTS AT EACH STANDARD DEVIATION (CON’T) +1−1 +2−2 +3−3 50% 47.5% of the data 16% 84%2.5%
  • 34. ➤ Recall that 95% of the data falls within 2 standard deviations of the mean. ➤ Half the 95% falls above and half below the 50%. ➤ 2 standard deviations below the mean is 50% - 47.5% = 2.5%. ➤ 2 standard deviation2 above the mean is 50% + 47.5% = 97.5% PERCENTS AT EACH STANDARD DEVIATION (CON’T) +1−1 +2−2 +3−3 50%16% 84% 47.5% of the data 2.5% 97.5%
  • 35. ➤ Recall that 99.7% of the data falls within 3 standard deviations of the mean. PERCENTS AT EACH STANDARD DEVIATION (CON’T) +1−1 +2−2 +3−3 50%16% 84%2.5% 97.5% 99.7% of the data
  • 36. ➤ Recall that 99.7% of the data falls within 3 standard deviations of the mean. ➤ Half the 99.7% falls above and half below the 50%. PERCENTS AT EACH STANDARD DEVIATION (CON’T) +1−1 +2−2 +3−3 50% 49.85% of the data 49.85% of the data 16% 84%2.5% 97.5%
  • 37. ➤ Recall that 99.7% of the data falls within 3 standard deviations of the mean. ➤ Half the 99.7% falls above and half below the 50%. ➤ 3 standard deviations below the mean is 50% - 49.85% = 0.15%. PERCENTS AT EACH STANDARD DEVIATION (CON’T) +1−1 +2−2 +3−3 50% 49.85% of the data 16% 84%2.5% 97.5%0.15%
  • 38. ➤ Recall that 99.7% of the data falls within 3 standard deviations of the mean. ➤ Half the 99.7% falls above and half below the 50%. ➤ 3 standard deviations below the mean is 50% - 49.85% = 0.15%. ➤ 3 standard deviations above the mean is 50% + 49.85% = 99.85%. PERCENTS AT EACH STANDARD DEVIATION (CON’T) +1−1 +2−2 +3−3 50%16% 84% 49.85% of the data 2.5% 97.5%0.15% 99.85%