MS 150 Statistics Fall 2004 Calendar and Syllabus
College of Micronesia-FSM
Instructor: Dana Lee Ling
Day Name Date Topic Other
Monday 8/23/04 1.1 Variables and levels of measurement
Wednesday 8/25/04 Barefoot day: Determining your body fat
Friday 8/27/04 1.2 Random samples Quiz 1, End Add/Drop
Monday 8/30/04 1.3 Experimental design Class list due
Wednesday 9/01/04 2.1 Bar and circle graphs using Excel  
Friday 9/03/04 2.2 Frequency distributions Quiz 2
Monday 9/06/04 3.1 Mode, Median, Mean [Actual: 2.2]  
Wednesday 9/08/04 Test One
Friday 9/10/04 Pohnpei Liberation Day (Observed)
Monday 9/13/04 3.2 Range and standard deviation [Actual: 3.1] Review test one
Wednesday 9/15/04 4.1 Intro to paired data [Actual: 3.2]  
Friday 9/17/04 4.2 Linear regression [Actual: 4.1 post-quiz] Quiz 3
Monday 9/20/04 4.3 Linear correlation coef [Actual: 4.1] Early warning
Wednesday 9/22/04 [Actual: 4.2 and 4.3]  
Friday 9/24/04 5.1 Probability: Intuition and equally likely outcomes one die only Quiz 4
Monday 9/27/04 6.1: Using relative frequency to calculate a mean (mean from distribution)  
Wednesday 9/29/04 Review mean from distribution HW. 6.1 Pennies in class: Making histogram was HW  
Friday 10/01/04 7.1 Introducing the shape of tomorrow: what we normally get Quiz 5
Monday 10/04/04 6.1 Mean from distribution [Actual: 7.1]
Wednesday 10/06/04 6.1 StDev from distribution [Review for midterm?]
Friday 10/08/04 Midex: Tiresxlshtmlsxc
Monday 10/11/04 Review midterm  
Wednesday 10/13/04 Penny probabilities(sxc)  
Friday 10/15/04 7.1 Normal probability graphs Quiz 6 • Middefs due
Monday 10/18/04 7.1 Normal probability graphs [7.3 x to z to area]  
Wednesday 10/20/04 7.2 Standardization  
Friday 10/22/04 7.3 Areas under any normal curve Quiz 7
Monday 10/25/04 United Nations Day
Wednesday 10/27/04 7.3 Areas under any normal curve  
Friday 10/29/04 t2 7.3 LDWWW
Monday 11/01/04 Review Test 2  
Wednesday 11/03/04 FSM Independence Day  
Friday 11/05/04 8.1 Sampling Distributions
Monday 11/08/04 Pohnpei Constitution Day  
Wednesday 11/10/04 9.1 Estimating ” with Large Samples  
Friday 11/12/04 9.2 Estimating ” small sample Quiz 8
Monday 11/15/04 9.4 Sample size Course selection
Wednesday 11/17/04 9 - 10 Hypothesis testing via confidence intervals
Friday 11/19/04 10.1 Hypothesis Testing Quiz 9xls
Monday 11/22/04 10.1 Hypothesis Testing  
Wednesday 11/24/04 10.2 Large sample tests for ”  
Friday 11/26/04 10.3 P values for large samples Quiz 10 • (xls)(sxc)
Monday 11/29/04 10.4 Small sample test for ”  
Wednesday 12/01/04 P values for small samples using Excel  
Friday 12/03/04 11.1 Inferences about paired diff Quiz 11
Monday 12/06/04 11.2 Inferences about two means (large samples)  
Wednesday 12/08/04 11.3 Inferences about two means (small samples)  
Friday 12/10/04 Prior review quizzes: s33r14s41r33s33r33s31r33
s23r33
Monday 12/13/04 Last day of instruction. Review quiz.
Tuesday 12/14/04 M10 Final at 8:00  
Thursday 12/16/04 M09 Final at 2:15  
Wednesday 12/22/04 Graduation  
  1. General Objectives
    Students will be able to:
    1. Calculate basic statistics (define, calculate)
    2. Represent data sets using histograms (define, calculate, estimate, represent)
    3. Solve problems using normal curve and t-statistic distributions including confidence intervals for means and hypothesis testing (define, calculate, solve, interpret)
    4. Determine and interpret p-values (calculate, interpret)
    5. Perform a linear regression and make inferences based on the results (define, calculate, solve, interpret)
  2. Specific Objectives
    Students will be able to:

    Given one variable data and the use of a calculator or spreadsheet software on a computer

    1. Calculate basic statistics
      1. Distinguish between a population and a sample (define)
      2. Distinguish between a statistic and a parameter (define)
      3. Identify different levels of measurement when presented with nominal, ordinal, interval, and ratio data. (define)
      4. Determine a sample size (calculate)
      5. Determine a sample minimum (calculate)
      6. Determine a sample maximum (calculate)
      7. Calculate a sample range (calculate)
      8. Determine a sample mode (calculate)
      9. Determine a sample median (calculate)
      10. Calculate a sample mean (calculate)
      11. Calculate a sample standard deviation (calculate)
      12. Calculate a sample coefficient of variation (calculate)
    2. Represent data sets using histograms
      1. Calculate a class width given a number of desired classes (calculate)
      2. Determine class upper limits based on the sample minimum and class width (calculate)
      3. Calculate the frequencies (calculate)
      4. Calculate the relative frequencies (probabilities) (calculate)
      5. Create a frequency histogram based on calculated class widths and frequencies (represent)
      6. Create a relative frequency histogram based on calculated class widths and frequencies (represent)
      7. Identify the shape of a distribution as being symmetrical, uniform, bimodal, skewed right, skewed left, or normally symmetric. (define)
      8. Estimate a mean from class upper limits and relative frequencies using the formula Sx*P(x) here the probability P(x) is the relative frequency. (estimate)
    3. Solve problems using normal curve and t-statistic distributions including confidence intervals for means and hypothesis testing
      1. Discover the normal curve through a course-wide effort involving tossing seven pennies and generating a histogram from the in-class experiment. (develop)
      2. Identify by characteristics normal curves from a set of normal and non-normal graphs of lines. (define)
      3. Determine a point estimate for the population mean based on the sample mean (calculate)
      4. Calculate a z-critical value from a confidence level (calculate)
      5. Calculate a t-critical value from a confidence level and the sample size (calculate)
      6. Calculate an error tolerance from a t-critical, a sample standard deviation, and a sample size. (calculate)
      7. Solve for a confidence interval based on a confidence level, the associated z-critical, a sample standard deviation, and a sample size where the sample size is equal or greater than 30. (solve)
      8. Solve for a confidence interval based on a confidence level, the associated t-critical, a sample standard deviation, and a sample size where the sample size is less than 30. (solve)
      9. Use a confidence interval to determine if the mean of a new sample places the new data within the confidence interval or is statistically significantly different. (interpret)
    4. Determine and interpret p-values
      1. Calculate the two-tailed p-value using a sample mean, sample standard deviation, sample size, and expected population mean to to generate a t-statistic. (calculate)
      2. Infer from a p-value the largest confidence interval for which a change is not significant. (interpret)


    5. Given two variable data and the use of spreadsheet software on a computer

    6. Perform a linear regression and make inferences based on the results
      1. Identify the sign of a least squares line: positive, negative, or zero. (Define)
      2. Calculate the slope of the least squares line. (Calculate)
      3. Calculate the intercept of the least squares line. (Calculate)
      4. Solve for a y value given an x value and the slope and intercept of a least squares line. (Solve)
      5. Solve for a x value given an y value and the slope and intercept of a least squares line. (Solve)
      6. Calculate the correlation coefficient r. (Calculate)
      7. Use a correlation coefficient r to render a judgment as to whether a correlation is perfect, high, moderate, low, or none. (Interpret)
      8. Calculate the coefficient of determination rČ. (Calculate)

Course Intentions

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