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Stat 100, Mar. 13

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Suppose n=64 people each tasted Pepsi and Coke in a 'blind' experiment. ... For instance, picking Coke might be like flipping Heads ... Pepsi/Coke continued ... – PowerPoint PPT presentation

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Title: Stat 100, Mar. 13


1
Stat 100, Mar. 13
  • Read Chapter 18, Try problems 1-6, 10-11

2
A preliminary-
  • During this lecture well use this result from
    earlier in the term
  • For normal curve (bell-shaped)
  • About 68 is in interval mean?? SD
  • About 95 is in interval mean ? 2 SD
  • About 99.7 is in interval mean ? 3 SD

3
Imagine coin flipping activity
  • Everybody in the class flips a coin 64 times
  • Each person finds proportion of his/her flips
    that are Heads
  • We draw a histogram of the results.

4
Coin flip example continued
  • Are some possibilities for the proportion (heads)
    more likely than others?
  • What would be the shape of the histogram of the
    proportions from the different class members?

5
Rule For Sample Proportions
  • Normal curve approximately describes possible
    sample proportions that could result from the
    many different possible samples in a random
    circumstance.

6
Characteristics of this normal curve
  • Mean population or theoretical value of the
    proportion (p)
  • Std Dev

7
Consider n64 coin flips
  • Let pproportion that are heads
  • True p 0.5
  • Mean of curve for possible sample proportions is
    0.5
  • St Dev is sqrt (0.5 x 0.5/64) 0.06

8
From 68-95-99.7 Rule
  • About 68 chance that sample proportion will be
    in range 0.50.06, or 44 to 56
  • About 95 chance that sample proportion will be
    in range 0.50.12, or 38 to 62
  • About 99.7 chance that sample proportion will be
    in range 0.50.18, or 32 to 68

9
Application
  • Suppose n64 people each tasted Pepsi and Coke in
    a blind experiment.
  • The result is that 40/640.625, or 62.5 state a
    preference say the Coke tasted better.

10
Pepsi/Coke example
  • Suppose everybody really picks preferred drink
    randomly
  • So, picking preferred drink is like a coin flip.
    For instance, picking Coke might be like flipping
    Heads
  • Results from n 64 people would be like results
    of 64 coin flips

11
Pepsi/Coke continued
  • For 64 coin flips, we found that about 95 of the
    time the proportion heads will be in interval
    38 to 62
  • Proportion will be greater than 62 only about
    2.5 of the time
  • So, 62.5 picking Coke would be unusual if
    preferences are random (like coin flips)
  • Inference Data might be evidence that
    preferences arent random

12
A past class activity
  • Students picked a number between 1 and 10.
  • N123 participated
  • 29 students picked the number 7.
  • Sample proportion is 29/123 .24 (24)

13
For true random picks
  • Proportion picking 7 would be p1/10 .1
  • Mean sample p .1
  • Std. Dev sqrt (.1 x.9 / 123) 0.027

14
Do Students Pick Randomly?
  • With random picks, chance is 99.7 that
    proportion picking 7 will be in interval
    .1 (3?.027), or .019 to .181
  • The class result .24 picking 7 is well
    outside this interval.
  • Inference Students probably dont pick randomly
    - observed result very unlikely to result from
    random selection
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