Math 151 , Fall 2004, Friday, Sept. 10, Day 7Hit reload..

HW Day7
  Read  Summary of 1.2  pp. 41-2.
Normal dist 1.3, first pp. 46-55, 57-8.  Read ahead, rest of sec. 1.3
Hand in 
A. Complete the Handout on Densities (get from outside my door if you missed class)
p. 51, 1.50, 51, 52 general densities, mean &median
= = = = = = = = = = = = = = = = = = = = = = = = = = 
Do what you can, save all the following to go with the next HW
Normal distribution: 
Shape related to mean and s.d., 68-95-99.7 rule.
p. 64 1.61 eyeball sigma
p. 54 1.53&54 Normal, men's hts--68-95-99.7 rule.
p. 64 1.63 pregnancies--68etc rule
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table use: Always sketch the distribution first, mark the area you are looking for! 
p.61 1.57 z's .  Do these with the Statistical Applet "Normal Curve Density Calculator" at http://www.whfreeman.com/scc/  Put on separate sheet and save for next time.
(Uncheck the 2-tail box for most uses. Mean 0, s.d. 1)
Next we'll learn how to do these with the book's tables and the areas methods. 		 Read, to discuss Optional (more practice) 
 
 

= = = = = = = = 
  1.55 wechsler ais, 68etc rule

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p. 65 1.65 z's
 
Questions on Standard Deviation?
Questions on SPSS?   Output for HW problems is posted in Mac 101.
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Spinner. Use 248x310 pixels

Density curves, pp.46-51
GET  handout HW sheet: "Density curves"

    (When values can take on any of a continuous interval of numbers)
Example:  Spinner:  Label edge with continuous values from 0 to 1. Spinning should produce 1/10 of all spins in each colored sector.  Simulations of 500, 3000 spins show roughly true. More spins would get closer.
(Histograms of simulations)

Abstraction, idealized histogram ("Mathematical model") = Density curve. Describes a theoretical distribution of data.

Any density curve:  is a curve
   --always on or above the horizontal axis
   --has area exactly 1 underneath it.
Many, many density curves are possible, modeling many phenomena.
  • For the spinner, the density curve is "Uniform on 0 to 1".
  • If you have two spinners like this, spin both at once and add the results--the corresponding density curve is "triangular, symmetric, on 0 to 2"
  • A more complicated mechanism will produce data corresponding to the density curve I have called "trapezoid, -1 to 2"
  • A very important one is the "normal" distribution family.
    • Median, mean, percentiles, standard deviation are defined for a density curve in analogy to those for a histogram.
    -- median has half of area below and half above.
    -- mean is balance point.  On the long-tail side of median if distribution is skewed. Same as median if symmetric.
    --First quartile has 1/4 of area below, 3/4 above. Etc. for others.

    Many densities have tables to describe them.  Especially tables showing area to the left of (below) a given value.

  • You will make and use tables for the simple distributions on the handout.  These are similar to the table we will use to describe the normal distribution.

    • "Normal" distributions:("Gaussian", "Bell-shaped") part 1 (pp. 51-5, 57-8)  http://www.whfreeman.com/scc/ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ First standard normal table use, then standardizing~ ~ ~ ~ ~ ~ ~ ~ ~ ~
    Standard Normal table use.  Our tables give area to the left of a z value.
        Sketch the density, mark the area you're looking for.
        Figure out how to get it using areas to the left of one or more z-values.
            Think cutting up paper bell-curves. (Remember whole area is 1.)
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