Introduction to Statistics
- The nature of data, uses and abuses of statistics, design of experiments statistics with calculator and computers.
Describing exploring and comparing data
- Summarizing data with frequency tables, pictures of data, measures of central tendency, measures of variation, measures of position, exploratory data analysis.
- Definitions, addition rule, multiplication rule, probabilities through simulation, counting.
- Random variables
- Binomial experiments, mean, variance and standard deviation for the Binomial distribution.
- Other probability distribtuions such as the uniform, geometric, and Poisson (optional).
- Mean and variance of linear combinations of independent random variables.
Normal Probability Distributions
- The Standard Normal distribution, non-standard Normal distributions, the Central Limit Theorem, Normal approximation to the Binomial distribution.
Estimates and Sample Sizes
- Estimating a population mean using samples, estimating a population proportion.
- Determining a sample size.
- Fundamentals of Hypothesis Testing, testing a claim about a mean using large and small samples, testing a claim about a proportion.
- Confidence intervals.
Inferences from Two Samples
- Inferences about two means: dependent samples, inferences about two means: independent and large samples, inferences about two means: independent and small samples, inferences about two proportions
Correlation and Regression
- Computing and interpreting the meaning of the correlation coefficient and coefficient of determination.
- Constructing and applying linear models to make predictions.
Lectures, group work, assignments.
Evaluation will be carried out in accordance with Douglas College policy. The instructor will present a written course outline with specific evaluation criteria at the beginning of the semester. Evaluation will be based on some of the following:
Note: Students may be required to pass the final exam in order to be eligible to pass the course.
At the end of the course, the successful student will be able to:
- Define the terms “population” and “sample” as they apply to Statistics
- Define and differentiate between the nominal, ordinal, interval and ratio levels of measurement
- Explain the proper use of Statistics within real world application and provide examples of its abuse
- Have an understanding of experimental design and the use of random number tables and generators
- Create and interpret frequency tables, histograms, cumulative frequency tables, stem and leaf displays and scatter plots
- Calculate and interpret measures of central tendency and variation
- Calculate and interpret standard scores
- Use the classical and relative frequency approaches to probability and counting techniques to solve problems
- Know and apply the addition and multiplication rules for probability and the concept of conditional probability
- Be able to differentiate between discrete and continuous random variables
- Determine whether the conditions for a Binomial experiment apply and compute the Binomial probabilities
- Compute the mean, variance and standard deviation for the Binomial distribution
- Compute the mean and variance of a linear combination of independent random variables (optional)
- Determine probabilities of standard and non-standard normal random variables
- Use the Normal distribution to approximate Binomial probabilities
- Apply the Student t distribution
- Apply the Central Limit Theorem to estimate probabilities associated with sample spaces when the population is sufficiently large
- Perform hypothesis tests on population parameters or the difference between population parameters.
- Create confidence intervals for population parameters or their difference using large and small samples.
- Create Contingency Tables and perform goodness-of-fit testing in multinomial experiments using the Chi-square test. (optional)
- Apply Chebychev’s theorem (optional)
- Apply the Poisson and other probability distributions (optional)
Consult the Douglas College bookstore for the current textbook. Sample textbooks:
Triola, Essentials of Statistics, Pearson, current edition
De Veaux et al, Stats: Data and Models, Pearson, current edition
Moore, Basic Practice of Statistics, Freeman, current edition
A calculator with statistical functionality may also be required.
MATH 1105; or
Precalculus 11 with a B or better; or
Precalculus 12 with a C or better; or
Foundations of Math 11 with a B or better; or
Foundations of Math 12 with a C or better.
No corequisite courses.
No equivalent courses.
Course Guidelines for previous years are viewable by selecting the version desired. If you took this course and do not see a listing for the starting semester / year of the course, consider the previous version as the applicable version.
|Institution||Transfer Details||Effective Dates|
|Athabasca University (AU)||AU MATH 215 (3)||2018/09/01 to -|
|BC Institute of Technology (BCIT)||BCIT MATH 2403 (3.5) or BCIT MATH 2453 (5)||2016/01/01 to -|
|Camosun College (CAMO)||CAMO MATH 116 (4)||2013/09/01 to 2015/08/31|
|Camosun College (CAMO)||CAMO STAT 116 (4)||2019/01/01 to -|
|Capilano University (CAPU)||CAPU STAT 101 (3)||2004/09/01 to -|
|Coast Mountain College (CMTN)||CMTN MATH 131 (3)||2016/09/01 to -|
|College of New Caledonia (CNC)||CNC MATH 104 (3)||2004/09/01 to -|
|College of the Rockies (COTR)||COTR STAT 106 (3)||2019/09/01 to -|
|Coquitlam College (COQU)||COQU STAT 101 (3)||2004/09/01 to -|
|Kwantlen Polytechnic University (KPU)||KPU MATH 1115 (3)||2004/09/01 to -|
|Langara College (LANG)||LANG STAT 1123 (3) or LANG STAT 1124 (3)||2004/09/01 to -|
|North Island College (NIC)||NIC STA 115 (3)||2011/09/01 to -|
|Okanagan College (OC)||OC STAT 121 (3)||2005/09/01 to -|
|Simon Fraser University (SFU)||SFU STAT 201 (3) or SFU STAT 203 (3) or SFU STAT 205 (3)||2018/05/01 to -|
|Simon Fraser University (SFU)||SFU STAT 101 (3) or SFU STAT 201 (3) or SFU STAT 203 (3)||2004/09/01 to 2018/04/30|
|Thompson Rivers University (TRU)||TRU MATH 120 (3)||2004/09/01 to 2010/08/31|
|Thompson Rivers University (TRU)||TRU STAT 1200 (3)||2010/09/01 to -|
|Trinity Western University (TWU)||TWU MATH 102 (3)||2016/05/01 to 2021/04/30|
|Trinity Western University (TWU)||TWU MATH 102 (3)||2021/05/01 to -|
|Trinity Western University (TWU)||TWU MATH 102 (3)||2004/09/01 to 2016/04/30|
|University of British Columbia - Okanagan (UBCO)||UBCO STAT 121 (3)||2005/05/01 to -|
|University of British Columbia - Vancouver (UBCV)||UBCV STAT 203 (3)||2004/09/01 to -|
|University of Northern BC (UNBC)||UNBC MATH 240 (3)||2008/09/01 to 2012/08/31|
|University of Northern BC (UNBC)||UNBC MATH 242 (3)||2004/09/01 to 2008/08/31|
|University of Northern BC (UNBC)||UNBC STAT 240 (3)||2012/09/01 to -|
|University of the Fraser Valley (UFV)||UFV MATH 106 (4)||2004/09/01 to 2012/12/31|
|University of the Fraser Valley (UFV)||UFV STAT 106 (4)||2013/01/01 to -|
|University of Victoria (UVIC)||UVIC STAT 255 (1.5)||2004/09/01 to -|
|Vancouver Community College (VCC)||DOUG MATH 1160 (3) or DOUG PSYC 2300 (3) = VCC MATH 1111 (3)||2019/09/01 to -|
|Vancouver Island University (VIU)||VIU MATH 1st (3)||2004/09/01 to 2018/08/31|
|Vancouver Island University (VIU)||VIU MATH 161 (3)||2018/09/01 to -|