Statistics Advising Guide

Statistics is the science of collecting, analyzing, and summarizing data.  Data is everywhere.  When you turn on your mobile phone, take a survey, or purchase groceries you are generating data. As the availability of data grows, so does the need for qualified people to gather, process, and use the data.   

Statistics Major

A grade of C- or higher is required in the 11 courses listed below as well as the successful completion of the cognate requirement.  

  1. MCS-122 Calculus II
  2. MCS-142 Intro to Statistics
  3. MCS-177 Computer Science I
  4. MCS-221 Linear Algebra
  5. MCS-222 Multivariate Calculus
  6. MCS-228 Intro to Analysis
  7. MCS-241 Applied Statistical Methods–Modern
  8. MCS-242 Applied Statistical Methods–Traditional
  9. MCS-341 Probability Theory and Mathematical Statistics I
  10. MCS-342 Probability Theory and Mathematical Statistics II
  11. MCS-358 Mathematical Model Building, or an approved capstone experience
  12. Cognate Requirement: a major in Mathematics or a minor or major in an applied discipline approved by the MCS Department. Examples include Biology, Chemistry, Economics, Management, Sociology, Psychological Science, Political Science, Geography, Environmental Studies, Geology, Neuroscience, Physics, or Health Fitness.

Statistics Minor

  1. One of the following courses in calculus :
    1. A previous course in calculus (passing the AP calculus exam with a 4 or 5)
    2. MCS-119 Calculus with Pre-Calculus Review Part B
    3. MCS-121 Calculus I
  2. One of the following courses in statistics:
    1. Passing the AP statistics exam with a 4 or 5
    2. MCS-140 Elementary Statistics
    3. MCS-142 Introduction to Statistics
    4. E/M-125 Statistics for Economics and Management
  3. All three of the following courses.  
    • MCS-177 Computer Science I
    • MCS-241 Applied Statistical Methods–Modern
    • MCS-242 Applied Statistical Methods–Traditional
  4. A course in research methods in another discipline:
    1. BIO-202 Evolution, Ecology, and Behavior
    2. E/M-355 Marketing Research
    3. E/M-388 Econometrics
    4. ENV-399 Senior Seminar
    5. GEG-242 Research Methods in Geography
    6. GEO-392/393 Research in Geology
    7. HES-220 Research and Statistics in Health and Exercise Science
    8. NUR-202 Research in the Health Sciences
    9. POL-200 Analyzing Politics
    10. PSY-224/225 Statistics and Research Methods
    11. PSY-385 Neuroscience Capstone
    12. S/A-247 Methods of Social Research

Suggestions

  • Potential majors are encouraged to complete the Core courses (MCS-122, MCS-221, MCS-222, MCS-228, MCS-177, MCS-142) by the end of their sophomore year.  All of these courses are offered every semester.
  • MCS-241 and MCS-242 can be taken in any order.  However, we encourage students, especially those interested in a Statistics minor, to take MCS-242 before MCS-241.
  • Students who are contemplating graduate study in Statistics are strongly encouraged to double-major in Mathematics.
  • Student interested in a career in actuarial science should have a strong background in mathematics, statistics, and economics.  A double major In Statistics and Economics or a major / minor combination is recommended.  Students should plan on taking at least the first actuary exam offered by the Society of Actuaries before graduation.

Sample Plans

All students should ideally lay out a schedules of their own showing what courses they plan to take when. This schedule may not accurately forecast the future, but it is helpful none the less. The sample plans below are a useful starting point in developing such an individual plan. You can select the sample plan that comes closest to fitting your own situation and then tailor it as necessary. Note that these sample plans show only courses within the Mathematics, Computer Science, and Statistics Department, but in some cases exceed the requirements of the major. Also note that certain courses are offered on an every-other year basis; for example MCS-341 (Probability Theory and Mathematical Statistics) is only offered in the fall of even years, MCS 342 (Probability Theory and Mathematical Statistics II) is only offered in the spring of odd years, and MCS-358 (Mathematical Model Building).  These courses are listed with a star,  *, in the sample plans below.  Please keep these course alterations in mind when planning out your major. Check the college catalog for when the courses you are interested in will be scheduled.

Starting with Calculus I

       
  Fall  J Term Spring
1st Year MCS-121   MCS-122
MCS-142

2nd Year

MCS-222
MCS-177

  MCS-221
MCS-228
3rd Year

MCS-242
*MCS-341

Cognate minor

*MCS-358 MCS-241
*MCS-342

Cognate minor
4th Year

*MCS-341

Cognate minor

*MCS-358 *MCS-342

Cognate minor

 

Starting with Calculus II

       
  Fall J Term Spring
1st Year MCS-122
  MCS-222
MCS-142
2nd Year

MCS-228
MCS-177

    MCS-221
3rd Year

MCS-242 
*MCS-341

Cognate minor

*MCS-358 MCS-241
*MCS-342

Cognate minor
4th Year

*MCS-341

Cognate minor

*MCS-358 *MCS-342

Cognate minor

 

Starting with Multivariate Calculus

       
  Fall J Term Spring
1st Year MCS-222
 

MCS-228
MCS-142

2nd Year

MCS-177 or 221

    MCS-177 or MCS-221
3rd Year

MCS-242
*MCS-341

Cognate minor

*MCS-358

MCS-241
*MCS-342

Cognate minor

4th Year

*MCS-341

Cognate minor

*MCS-358

*MCS-342

Cognate minor

 

Statistics Course Descriptions

140 Elementary Statistics Survey of uses of statistics, organization of data, observation and measurement, averages, variability, association, probability, randomness, sampling distributions, estimation, tests of hypotheses, and introduction to design. Students with a calculus background who want statistics should take MCS-142. Prerequisite: Course in higher algebra or consent of instructor. MATHL, Fall and Spring Semesters.

 142 Introduction to Statistics Gathering, organizing and describing data, probability, random variables, sampling distributions, estimation, hypothesis testing, linear regression, and analysis of variance. Treatment is more mathematical than MCS-140, but the emphasis is still on applications. Introduction to the use of computerized statistical packages. Students who have already taken a statistics course may not earn credit for MCS-142. Prerequisite: MCS-119 or MCS-121. MATHL, Fall and Spring semesters.

 241 - Applied Statistical Methods–Modern This is an intermediate course in the organization and analysis of data. The focus is on modern statistical methods for analyzing uni-variate and multivariate data. Topics include non-parametric statistical analysis, randomization tests, simulation, and bootstrapping. In addition, students will learn to use a statistical software package. Prerequisite: MCS-140, MCS-142, E/M-125, or PSY-224. Spring semesters.

242 - Applied Statistical Methods–Traditional This is an intermediate course in the collection, organization, and analysis of data. The focus is the application of statistical methods to practical problems involving real data from many disciplines. Topics to be covered include regression analysis, experimental design, analysis of variance, and logistic regression. In addition, students will learn to use a statistical software package. Prerequisite: MCS-140, MCS-142, E/M-125, or permission of instructor.  WRITD. Fall semesters.

 341 - Probability Theory and Mathematical Statistics I The probability model, random variables, conditional probability and independence, probability functions, density functions, expectation, some important discrete and continuous distributions, the central limit theorem. Prerequisite: MCS-222; a previous or concurrent course in statistics is recommended.  Fall semester, even years.

 342 - Probability Theory and Mathematical Statistics II Normal, chi-square, t, and F distributions. Principles of statistical estimation and hypothesis testing. Non-parametric methods. Regression, correlation, and analysis of variance. Prerequisites: MCS-341 and a previous course in statistics. Spring semester, odd years.

 358 - Mathematical Model Building An introductory study of the formulation of mathematical models to represent, predict, and control real-world situations, especially in the social and biological sciences. The course will use ideas from calculus, linear algebra, and probability theory to describe processes that change in time in some regular manner, which may be deterministic or stochastic. Typical topics are Markov and Poisson processes, discrete and continuous equations of growth, and computer simulation. In addition, students will work on their own mathematical modeling projects. Prerequisites: MCS-177, MCS-122, MCS-221, and MCS-142 or MCS-341. Juniors and Seniors only. January Interim, even years.