1 / 18

COURSE: JUST 3900 TIPS FOR APLIA Developed By: Ethan Cooper (Lead Tutor) John Lohman

COURSE: JUST 3900 TIPS FOR APLIA Developed By: Ethan Cooper (Lead Tutor) John Lohman Michael Mattocks Aubrey Urwick. Chapter 1: Introduction to Statistics. Learning statistics is like learning a foreign language: Make notecards to help you learn your key terms. Population (p. 5)

Download Presentation

COURSE: JUST 3900 TIPS FOR APLIA Developed By: Ethan Cooper (Lead Tutor) John Lohman

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. COURSE: JUST 3900 TIPS FOR APLIA Developed By: Ethan Cooper (Lead Tutor) John Lohman Michael Mattocks Aubrey Urwick Chapter 1: Introduction to Statistics

  2. Learning statistics is like learning a foreign language: Make notecards to help you learn your key terms • Population (p. 5) • Sample (p. 6) • Variable (p. 6) • Parameter (p. 7) • Statistic (p. 7) • Descriptive Statistics (p. 8) • Inferential Statistics (p. 9) • Correlational Method (p. 13) • Experimental Method (p.16)

  3. More Key Terms: Think Notecards • Independent Variable (p. 16) • Dependent Variable (p. 16) • Control Condition (p. 16) • Experimental Condition (p. 16) • Nonexperimental Studies (p. 17) • Quasi-independent Variable (p. 18) • Constructs (p. 20) • Operational Definition (p. 20)

  4. More Key Terms: Think Notecards • Discrete Variable (p. 21) • Continuous Variable (p. 21) • Real limits (p. 22) • Nominal Scale (p. 23) • Ordinal Scale (p. 23) • Interval Scale (p. 25) • Ratio Scale (p. 25) • Order of Operations (p. 27)

  5. Statistics, Population, and Samples • If a researcher measures the number of text messages that each individual high school student sends each day and calculates the average number for the entire group of high school students, the average number would be an example of a ________. (see p. 11, #1) • A researcher is interested in how watching a reality TV show featuring fashion models influences the eating behavior of 13-year-old girls. (see p. 11, #2) • A group of 30 13-year-old girls is selected to participate in a research study. The group of 30 13-year-old girls is an example of a ________. • In the same study, the amount of food eaten in one day is measured for each girl and the researcher computes the average score for the 30 13-year-old girls. The average score is an example of a _________.

  6. Research Methods Researchers have observed that high school students who watched educational television programs as young children tend to have higher grades than their peers who did not watch educational television. Is this study an example of an experiment? Why or why not? (see p. 19, #1) What two elements are necessary for a research study to be an experiment? (see p. 19, #2)

  7. Research Methods Loftus and Palmer (1974) conducted an experiment in which participants were shown a video of an automobile accident. After the video, some participants were asked to estimate the speed of the cars when they “smashed into” each other. Others were asked to estimate the speed when the cars “hit” each other. The “smashed into” group produced significantly higher estimates than the “hit” group. Identify the independent and dependent variables for this study. (see p. 19, #3)

  8. Variables and Measurement • A survey asks people to identify their age, annual income, and marital status (single, married, divorced, etc.). For each of these three variables, identify the scale of measurement that is used and identify whether the variable is continuous or discrete. (see p. 26, #1) • An English professor uses letter grades (A, B, C, D, and F) to evaluate a set of student essays. What kind of scale is being used to measure the quality of the essays? (see p. 26, #2) • The teacher in a communications class asks students to identify their favorite reality television show. The different television shows make up what kind of scale? (see p. 26, #3)

  9. Variables and Measurement • When measuring height to the nearest inch, what are the real limits for a value of 68 inches? (see p. 26, #5a) • When measuring height to the nearest half inch, what are the real limits for a value of 68 inches? ( see p. 26, #5b)

  10. Discrete or Continuous? • Foot length • Height • Time • Number of students in JUST 3900 • Weight • Number of siblings • Age

  11. Discrete or Continuous? • Foot length, height, weight, age, and time are all continuous because they are not limited to a fixed set of separate, individual categories. They can be divided into an infinite number of fractional parts. It is always possible to find a third point between any two points. • Height and foot length, for instance, can be measured in meters, centimeters, and even millimeters. • Time and age can be broken down into years, months, days, hours, seconds, or milliseconds. • When two people say they each weigh 150 lbs., what they likely mean is that they each weigh about 150 lbs. There are an infinite number of possibilities between 149 lbs. and 150 lbs. and 150 lbs. and 151 lbs. that would more accurately describe their respective weights.

  12. Discrete or Continuous? • The number of students enrolled in JUST 3900 and the number of siblings one has are both discrete variables. They consist of separate, indivisible categories. Typically, discrete variables consist of whole, countable numbers. No values exist in between. • For instance, there may be 100 students enrolled in JUST 3900, or one may have 7 siblings, but there cannot be 99.5 students or 7.5 siblings.

  13. Order of Operations • Parentheses • Exponents • Multiplication/Division (in order from left to right) • Summation • Addition/Subtraction (in order from left to right)

  14. Order of Operations • Calculate each value requested for the following scores: 6,2,4,2. (see p. 30, #1a-e) • ΣX • ΣX2 • (ΣX)2 • Σ(X-2) • Σ(X-2)2 • Identify the first step in each of the following calculations. (see p. 30, #2a-c) • ΣX2 • (ΣX)2 • Σ(X-2)2

  15. Summation Notation • Use summation notation to express each of the following. (see p. 30, #3a-c) • Add 4 points to each score and then add the resulting values. • Add the scores and then square the total. • Square each score, then add the squared values.

  16. Frequently Asked QuestionsFAQs • How do I pass this class? • Read the chapters before lectures on Monday. • Complete Aplia tutorials/practice questions in preparation for in-class exercises on Wednesday. • Finish in-class exercises Wednesday night (or at least by Friday before class). • Come to tutoring on Thursday. • Review the answer key to the in-class exercises before completing the graded portion of Aplia. • Never take a homework free holiday! (Towards the end of the semester this will make more sense) • Do not wait until the last minute to complete Aplia! • Always bring slides to class and take notes.

  17. Frequently Asked QuestionsFAQs • What should I expect on the tests? • Tests will consist of approximately 30-45 multiple choice questions. • The final exam will consist of 60 or more multiple choice questions. • The material covered on the test will include knowledge of concepts,definitions, and formulas (know your terms). • Strictly speaking, the tests are not cumulative. Each exam will only cover 3 chapters. • However, statistics is a course that builds on the foundation that was laid in past chapters. If you do not understand chapters 1-3, you will not grasp chapters 4-6. “A small error in the beginning leads to a large error in the end.” Aristotle • Any tables required for the test (e.g., the tables in the textbook’s appendices) will be provided by Dr. Kerbs.

  18. What is it Really Like to be a JUST3900 Student? • Taking JUST3900 with Dr. Kerbs: FACT OR FICTION • Taking JUST3900 with Dr. Kerbs is a demanding experience. FACT • Dr. Kerbs does expect a great deal from his students -- he wants you to understand and preferably master the course material. However, he provides you with every resource to excel in his class: PowerPoint slides, in-class exercises with a detailed explanation of each problem, a great text book, office hours, and tutoring services. He gives you the tools to succeed in understanding and applying course content. That said, you need to do your part as well: Read before each class, attend each class and take notes, review your notes between classes, complete all homework assignments, ask questions, and study for each test. • Getting extra help is difficult. FICTION • Dr. Kerbs is very approachable on all levels. First, he wants students to ask questions in class and during office hours. If you’re asking questions, it means that you are trying to learn the material: This is a good thing! You can always expect that Dr. Kerbs will take your questions and requests for help seriously, and he will always treat you with respect and courtesy. Second, he holds office hours every week and is available by appointment. He is known for diligently helping students because he really does want you to succeed.

More Related