Math 151 , Spring 2004, Monday, Feb. 16, Day 7After Class

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 
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.

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.

    • Will review and continue from here Wednesday
    "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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