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Statistics 300: Elementary Statistics

Statistics 300: Elementary Statistics. Section 6-2. Continuous Probability Distributions. Quantitative data Continuous values Physical measurements are common examples No “gaps” in the measurement scale Probability = “Area under the Curve”. The Uniform Distribution X ~ U[a,b]. The total

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Statistics 300: Elementary Statistics

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  1. Statistics 300:Elementary Statistics Section 6-2

  2. Continuous Probability Distributions • Quantitative data • Continuous values • Physical measurements are common examples • No “gaps” in the measurement scale • Probability = “Area under the Curve”

  3. The Uniform DistributionX ~ U[a,b] The total area = 1 Likelihood a b

  4. If X ~ U[a,b] thenP(c < x < d) = ? Likelihood a c d b

  5. If X ~ U[a,b] then Likelihood a c d b

  6. If X ~ U[100,500] then • P(120 < x < 170) = 100 120 170 500

  7. If X ~ U[100,500] then • P(300 < x < 400) = 100 300 400 500

  8. If X ~ U[100,500] then • P(x = 300) = (300-300)/(500-100) • = 0 100 300 400 500

  9. If X ~ U[100,500] then • P(x < 220) = 100 220 500

  10. If X ~ U[100,500] then • P(120 < x < 170 or 380 < x) = 100 120 170 380 500

  11. If X ~ U[100,500] then • P(20 < x < 220) = 20 100 120 220 500

  12. If X ~ U[100,500] then • P(300 < x < 400 or 380 < x) = 100 300 380 400 500

  13. If X ~ U[100,500] then • P(300 < x < 400 or 380 < x) = 100 300 380 400 500

  14. If X ~ U[100,500] then • P(300 < x < 400 or 380 < x) = 100 300 380 400 500

  15. If X ~ U[100,500] then • P(300 < x < 400 or 380 < x) = 100 300 380 400 500

  16. The Normal DistributionX ~ N(m,s)

  17. Normal Distributions • Family of “bell-shaped” distributions • Each unique normal distribution is determined by the mean (m) and the standard deviation (s) • The mean tells where the center of the distribution is located • The Standard Deviation tells how spread out (wide) the distribution is

  18. Normal Distributions • If I say “the rectangle I am thinking of has base = 10 centimeters (cm) and height = 4 cm.” You know exactly what shape I am describing. • Similarly, each normal distribution is determined uniquely by the mean (m) and the standard deviation (s)

  19. The Standard Normal Distribution • The “standard normal distribution” has m = 0 and s = 1. • Table A.2 in the textbook contains information about the standard normal distribution • Section 6-2 shows how to work with the standard normal distribution using Table A.2

  20. The Standard Normal Distribution • The “standard normal distribution” has m = 0 and s = 1. • Sometimes called the “Z distribution” because ... • If x ~ N(m = 0, s = 1), then every value of “x” is its own z-score.

  21. Standard Normal Distribution : Two types of problems • Given a value for “z”, answer probability questions relating to “z” • Given a specified probability, find the corresponding value(s) of “z”

  22. Standard Normal Distribution : Given “z”, find probability • Given: x ~ N(m = 0 and s = 1) • For specified constant values (a,b,c, …) • Examples: • P(0 < x < 1.68) • P(x < 1.68) [not the same as above] • P(x < - 1.68) [not same as either of above]

  23. P(0 < x < 1.68)

  24. P(0 < x < 1.68)

  25. P(x < - 1.68)

  26. Standard Normal Distribution : Given probability, find “z” • Given: x ~ N(m = 0 and s = 1) • For specified probability, find “z” • Example: For N(m = 0 and s = 1), what value of “z” is the 79th percentile, P79? • Example: For N(m = 0 and s = 1), what value of “z” is the 19th percentile, P19?

  27. What is P79 for N(0,1)

  28. What is P19 for N(0,1)

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