Broward College Statistics Course Outline LAST REVIEW: Academic Year 2006-07 NEXT REVIEW: Academic Year 2011-12 COMMON COURSE NUMBER: STA 2023 INSTRUCTOR NAME: Freddy R. Matute, MBA CONTACT: fmatute@broward.edu TEXT BOOK: Elementary Statistics by Mario F. Triola, 10 th Edition CREDIT HOURS: 3 CONTACT HOURS BREAKDOWN: Lecture/Discussion 48 Contact Hours/Week 5H 30M CALCULATOR: Scientific calculator CATALOG COURSE DESCRIPTION: Prerequisite: MAT 1033 Co requisite: None A first course in statistical methods including such topics as collecting, grouping, and presenting data; measures of central tendency, position, and variation; theoretical distributions; probability; tests of hypotheses; estimation of parameters; and regression and correlation. Use of statistical computer software and/or a scientific/graphing calculator (capable of performing 2-variable statistics) will be required. Meets Areas 5A or 6 of the general education requirement for the Mathematics Department or at least a grade of C in the prerequisite course is required. General Education Requirements - Associate of Arts Degree, meets Area(s): General Education Requirements - Associate in Science Degree, meets Area(s): UNIT TITLES: 1. Frequency Tables and Graphs 6. Hypothesis Testing Concepts 2. Descriptive Measures 7. Hypothesis Testing Applications 3. Probability 8. Estimation of Parameters 4. Discrete Probability Distributions 9. Linear Correlation and Regression 5. Normal Distribution and Central Limit Theorem I. Course Overview: Upon successful completion of this course, the students should be able to explain the techniques of descriptive statistics; the utilization of the Central Limit Theorem; the relation of probability theory to statistics; the conduct of hypotheses tests; and the use of correlation and regression as they are related to prediction. II. Units: Unit 1. Frequency Table and Graphs 1.0 The students should be able to organize, summarize, and illustrate data both tabularly and graphically, as well as be able to interpret the meanings of such tables and graphs. 1.1 Construct and interpret frequency and relative frequency distribution tables. 1.2 Construct and interpret stem-and-leaf distributions.
1.3 Construct and interpret histograms. 1.4 Construct and interpret frequency and relative frequency polygons. (*) 1.5 Construct and interpret ogives. (*) 1.6 Construct and interpret pie charts. (*). Unit 2. Descriptive Measures 2.0 The students should be able to calculate measures of location, central tendency and dispersion, and distinguish between population parameters and sample statistics. 2.1 Calculate and interpret the mean, median, and mode of a set of numbers. 2.2 Calculate and interpret the weighted mean. 2.3 Calculate and interpret quartiles, percentiles, and deciles. 2.4 Construct and interpret box-and-whisker diagrams. (*) 2.5 Calculate and interpret the range, variance, and standard deviation of a set of numbers. 2.6 Calculate and interpret the mean, median, and mode for grouped data. 2.7 Calculate and interpret the variance and standard deviation of grouped data. 2.8 Determine the inter-relationships between the mean, median, and mode for skewed and symmetrical distributions. 2.9 Calculate and interpret z-scores for a normal distribution. 2.10 Apply Chebyshev's Theorem. (*) Unit 3. Probability 3.0 The students should be able to apply the definitions and rules of probability to solve problems involving discrete variables. 3.1 Apply the classical definition of probability. 3.2 Compute probabilities using the fundamental counting principle, permutations, and combinations. 3.3 Compute probabilities using the law of complementation. 3.4 Compute probabilities using the laws of addition. 3.5 Compute probabilities using the laws of multiplication. 3.6 Compute conditional probabilities. 3.7 Calculate the odds associated with given probabilities. (*). Unit 4. Discrete Probability Distributions 4.0 The students should be able to determine the probability distribution for a given experiment and random variable, and calculate its mean and standard deviation.
4.1 Differentiate between discrete and continuous random variables. 4.2 Given a distribution, decide whether it satisfies the requirements of a probability distribution. 4.3 Given an experiment, identify the appropriate random variable and determine its probability distribution. 4.4 Graph the probability distribution for a given random variable. (*) 4.5 Calculate the mean (expected value) and standard deviation for a given random variable. 4.6 Decide whether a given random variable is binomial. 4.7 Calculate the probability that a binomial random variable will take on a particular value. 4.8 Calculate the mean and standard deviation of a binomial random variable.. Unit 5. Normal Distribution and Central Limit Theorem 5.0 The students should be able to solve problems using normal distribution and apply the Central Limit Theorem for sample means. 5.1 Identify the properties of the normal distribution 5.2 Use normal distributions to determine probabilities. 5.3 Determine values in a normal distribution when given specific probabilities. 5.4 Determine when the normal distribution can be used to approximate the binomial distribution, and compute binomial probabilities using the normal approximation. (*) 5.5 Explain the meaning of the Central Limit Theorem and its properties associated with the distribution of sample means. 5.6 Use the Central Limit Theorem to determine probabilities for distributions of sample means 5.7 Use other continuous distributions to determine probabilities. (*). Unit 6. Hypothesis Testing Concepts 6.0 The students should be able to demonstrate an understanding of the concepts and structure of hypothesis testing by performing hypothesis tests in various situations. 6.1 Determine the null and alternative hypotheses that would be used to test a claim. 6.2 Describe, analyze, and differentiate between Type I and Type II errors. 6.3 Determine which error type is worse in a given situation, and thereby establish the appropriate level of significance (e.g.,.01,.05) for a hypothesis test. (*) 6.4 Decide when to use the t or z statistic, and be able to determine the correct values for these statistics for various hypothesis tests. 6.5 Determine the rejection region(s), and construct a sketch of the region(s). 6.6 Determine the p-value for a hypothesis test. 6.7 Calculate the sample z or t test statistic for given sample data.
6.8 Decide whether to reject or fail to reject the null hypothesis based upon comparison of the test statistic value and the rejection region, or comparison of the p-value and the level of significance. 6.9 Translate the hypothesis test conclusion into a meaningful holistic answer to the original problem situation. 6.10 Determine the probability of a Type II error and the power of a hypothesis test. (*) Unit 7. Hypothesis Testing Applications 7.0 The students should be able to apply the hypothesis testing concepts to a wide variety of different situations. Upon successful completion of this unit, the students should be able to perform an hypothesis test by stating null and alternative hypotheses for a test, delineating the critical region for rejection of the null hypothesis, computing the appropriate test statistic, formulating the proper conclusion, and applying this structure to the tests of hypotheses regarding: 7.1 The mean of a population by using a z statistic. 7.2 The mean of a population by using a t statistic. 7.3 The difference of two means using two large samples. 7.4 The difference between means using small samples. (*) 7.5 The differences between means using paired samples. 7.6 A proportion using one large sample. 7.7 The differences between proportions using two large samples. (*) 7.8 The Chi-square test for variances using a small sample. (*) 7.9 The Chi-square test for independence of two variables. 7.10 Test F test for two variances. (*) 7.11 The F test for the equality of three or more population means using the analysis-of-variance with and without the ANOVA table. (*) 7.12 The use of a computer (via a statistical package) to perform any of the aforementioned hypothesis tests. (*) Unit 8. Estimation of Parameters 8.0 The students should be able to determine point and interval estimates for population parameters and to determine sample sizes for the estimation of parameters. 8.1 Determine point estimates for the population mean and population proportion. 8.2 Determine a point estimate for the population variance. (*) 8.3 Construct confidence intervals for the population mean and population proportion. 8.4 Determine confidence intervals for the population variance. (*) 8.5 Determine the sample sizes necessary to estimate population means and population proportions within a given error.
8.6 Construct confidence intervals for the difference between means and difference between proportions. (*) Unit 9. Linear Correlation and Regression 9.0 The students should be able to calculate the correlation coefficient, determine if there is a significant linear correlation, and find the line of best fit. 9.1 Explain the meaning of and calculate "r," the sample linear correlation coefficient. 9.2 Construct and interpret scatter diagrams. 9.3 Conduct a test to determine if there is a significant linear correlation between two variables. 9.4 Find the equation of the regression line. 9.5 Make predictions based on, when appropriate, the equation of the regression line or its centroid. EVALUATION TESTS (60%): There will be three tests as follows: Test 1: Includes Chapters 2-4 Test 2: Includes Chapters 5-8 Test 3: Includes Chapters 9-11 Each test is graded on the basis of 80 points. These tests will be given in class. There are NO makeups on these tests. Students who miss a test are assigned a grade of zero for that test. Under very special circumstances when makeup tests are permitted it will be graded over 80% and it will not be the same given to the rest of the class. HOMEWORK (15%): There are exercises at the end of each of the sections, which you must satisfactorily complete as part of your course requirements. The main objective of these exercises is to provide you with "hand-on" conclusions for your statistics analysis. QUIZZES (15%): There will be quizzes at the beginning of the class that will be graded by your instructor.the quizzes will be based on the material send for homework.if you are late for the quiz or if you miss a class, you receive a grade of zero. PROJECT (10%): You will also be required to complete one research survey project based on any topic that will be selected by you and approved by your instructor. These projects count as an application of the material covered in class. FINAL GRADE Base on the average of your three tests including quizzes, homework and project: A 90-100 B 80-89 C 70-79 D F 60-69 Below 60 CLASS RULES AND REQUIREMENTS
1. NO cellphones are allowed in class. 2. NO food, drinks, or baseball caps are allowed in class. 3. If you miss a quiz, exam or paper due date you must bring a letter explaining the reason to the professor. The professor and the college director will sign the letter and it will be filed in your personal folder. A limit of three letters is allowed per year without further penalty. 4. Students who are absent more than two unexcused times per semester will receive a letter dropping for the course 5. Students who are absent more than three unexcused times per semester will receive an F for the course. 6. If a student is absent more than two classes consecutively they must present a letter explaining why and that letter will be filed in the student s folder. 7. Students who make-up quizzes, exams, mid-term or final exams will be allowed to take the exam over 80%. 8. Individual instructors will decide when make-up exams will be taken. 9. Students who cheat or plagiarize at any time will be subject to severe penalties up to, and excluding expulsion from the school. Dishonesty is not permitted; get used to it. 10. Read the sections of the textbook corresponding to the material covered in class, preferably before the class 11. Do all the homework problems assigned 12. Ask questions if you experience difficulty 13. Seek assistance if you need extra help 14. Consider forming study groups with your classmates 15. Consider visiting the Khan Academy site for extra help www.khanacademy.org COURSE CALENDAR STATISTICS DATE TOPIC 10/24/2016 Introduction to class rules and policies; Read Chapter 1, Read Section 2.2 10/26/2016 Read Section 2.3, 2.4, 3.2, 3.3 and solve proposed exercises 10/31/2016 Read Sections 3.4, 3.5, 4.2, 4.3 and solve proposed exercises 11/2/2016 No Class (Holiday) 11/7/2016 Technology Project: Research and TP page 133 11/9/2016 First Test: Chapters 1, 2 & 3 11/14/2016 Read Sections 4.4, 4.5, 4.7, 5.2, 5.3 and solve proposed exercises 11/16/2016 Read Sections 5.4, 6.2, 6.3, 6.5 and solve proposed exercises 11/21/2016 Second Test: Chapters 4, 5 & 6 11/23/2016 Technology Project: Research and TP page 195, TP page 314 11/28/2016 Read Sections 7.2, 7.3, 7.4, 8.2 and solve proposed exercises 11/30/2016 Read Sections 8.3, 8.4, 8.5, 9.3 and solve proposed exercises 12/5/2016 Read Sections, 9.4, 10.2, 10.3 and solve proposed exercises 12/7/2016 Technology Project: Research and TP page 480, TP page 511 12/12/2016 Third Test: Chapters 7, 8, 9 & 10 PROPOSED EXERCISES
STATISTICS HOMEWORK Section Page Exercises 2.2 49 11 13 15 17 19 21 23 2.3 55 9 11 13 15 2.4 66 6 9 15 3.2 87 5 13 19 23 25 3.3 105 3 9 13 19 23 25 3.4 117 5 9 13 15 19 3.5 126 1 5 11 4.2 147 11 17 21 25 29 4.3 156 5 7 11 17 21 4.4 165 5 7 13 15 19 4.5 172 7 13 15 17 19 4.7 186 7 9 19 21 27 5.2 210 5 9 13 17 19 5.3 221 5 9 13 15 25 31 35 5.4 227 5 9 13 15 19 6.2 257 15 19 21 25 27 31 35 37 6.3 266 5 11 15 19 21 25 6.5 287 5 7 9 15 19 6.6 298 5 15 19 23 27 7.2 333 5 11 13 19 21 31 39 41 7.3 346 3 11 15 25 27 33 7.4 359 5 13 19 21 25 8.2 403 9 17 25 37 41 8.3 414 9 11 13 17 19 25 8.4 423 9 11 13 17 19 9.2 465 9.3 482 24 25 26 27 28 9.4 491 11 13 17 19 23 10.2 534 9 13 17 19 23 27 10.3 553 9 13 17 19 23 27 10.4 564 13 15 17 19 11.2 601 11 15 17 21 25 11.3 616 5 9 13 17 21