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6.
Minimum hours per week of independent work done
outside of class: 8
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Course
Preparation – (Supplemental form B
required) |
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7a.
Prerequisite(s):
(Course and/or other preparation/experience that
is REQUIRED
to be completed previous to enrollment in this
course.) |
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Two years of high school
algebra or Math. D with a grade of "C" or
better, or placement by matriculation assessment
process
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7b.
Co-requisite(s): (Courses
and/or other preparation that is REQUIRED to be
taken concurrently with this
course.) |
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7c.
Advisory:
(Minimum preparation RECOMMENDED
in order to be successful in this
course. Also known as “Course
Advisory”.) |
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Catalog
Description And Other Catalog Information
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8.
Repeatability: |
Not Repeatable
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9a.
Grading Option: |
Standard Grade
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9b.
Catalog Description: |
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Introduction to the basic
concepts of statistics. Emphasis on statistical
reasoning and application of statistical
methods. Areas included: graphical and numerical
methods of descriptive statistics; basic
elements of probability and sampling; binomial,
normal, Student's t, and chi-square
distributions; confidence intervals and
hypothesis testing for one and two population
means and proportions; chi-square tests for
goodness-of-fit and independence; and linear
regression and correlation. (CAN STAT
2)
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Course
Outline Information |
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10.
Student Performance Outcomes:
(Outcomes for all credit courses must
indicate that students will learn critical
thinking and will be able to apply concepts at
college level. Outcomes must be
related to items listed in Section 11.)
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Upon successful completion
of this course, students will:
1. Identify
the population and sample in a scenario where
statistics is employed.
2. Identify the
method of sampling utilized in a scenario where
statistics is employed.
3. Classify a
particular data item by type and level of
measurement.
4. Operate a statistically
enabled scientific calculator or computer
software package to assist in the application of
statistical methods.
5. Construct a
distribution table, histogram, stem-and-leaf
plot, Pareto chart, pie chart, and scatter
diagram from raw data and describe the
result.
6. Calculate the mean, median, and
mode from raw data and interpret the
result.
7. Calculate the standard deviation,
coefficient of variation, and range from raw
data and interpret the result.
8. Calculate
the standard score of a data value and interpret
the result.
9. Use the standard score to
identify unusual data values.
10. Calculate
the percentile of a data value and interpret the
result.
11. Determine the data value for a
particular percentile and interpret the
result.
12. Use the basic rules of
probability to calculate probabilities for
simple and compound events.
13. Calculate
conditional probabilities.
14. Use
probabilities to determine if events are
independent.
15. Construct a probability
distribution for a discrete random variable and
calculate the expected value.
16. Calculate
probabilities based on the binomial probability
distribution.
17. Calculate the mean and
standard deviation of a binomial probability
distribution.
18. Calculate probabilities
based the normal probability
distribution.
19. Apply the central limit
theorem to determine probabilities concerning
the mean of a sample.
20. Construct a
confidence interval estimate for one population
mean and interpret the result.
21. Construct
a confidence interval estimate for one
population proportion and interpret the
result.
22. Conduct a hypothesis test
involving one population mean and interpret the
result.
23. Conduct a hypothesis test
involving one population proportion and
interpret the result.
24. Conduct a
hypothesis test involving the difference between
two population means and interpret the
result.
25. Construct a confidence interval
estimate for the difference between two
population means and interpret the
result.
26. Conduct a hypothesis test
involving the difference between two population
proportions and interpret the result.
27.
Construct a confidence interval estimate for the
difference between two population proportions
and interpret the result.
28. Construct a
confidence interval and conduct a hypothesis
test with dependent paired samples and interpret
the result.
29. Conduct a chi-square
goodness-of-fit test and interpret the
result.
30. Conduct a chi-square test for
independence and interpret the result.
31.
Calculate the linear correlation coefficient for
a set of paired data and interpret the
result.
32. Calculate the least squares
regression line for a set of paired data and
interpret the result.
33. Use the linear
regression model when appropriate to make a
prediction.
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11.
Course Content Outline:
(Provides a comprehensive, sequential outline of
the course content, including all major subject
matter and the specific body of knowledge
covered.) |
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1. Fundamental Statistical
Concepts and Terms
a) Population, Census, and
Sample
b) Methods of Sampling: Simple Random,
Stratified, Cluster, and Systematic
c) Types
of Data: Qualitative, Quantitative, Continuous,
and Discrete
d) Levels of Measurement:
Nominal, Ordinal, Interval, and Ratio
2.
Descriptive Statistics
a) Graphical Methods:
Distribution Table, Histogram, Stem-and-Leaf
Plot, Pareto Chart, Pie Chart, and Scatter
Diagram
b) Measures of Central Tendency:
Mean, Median, and Mode
c) Measures of
Dispersion: Standard Deviation, Coefficient of
Variation, and Range
d) Measures of Position:
Standard Scores and Percentiles
3.
Introduction to Probability
a) Definition of
Probability
b) Basic Rules of
Probability
c) Conditional Probability and
Independent Events
d) Random Variables,
Probability Distributions, and Expected
Values
e) Binomial Probability
Distribution
f) Normal Probability
Distribution
g) Central Limit Theorem
4.
Inferential Statistics
a) Confidence Interval
Estimate for One Population Mean
b)
Confidence Interval Estimate for One Population
Proportion
c) Hypothesis Testing Procedure
and P-Values
d) Hypothesis Test Involving One
Population Mean
e) Hypothesis Test Involving
One Population Proportion
f) Hypothesis Test
Involving Difference between Two Population
Means
g) Confidence Interval Estimate of
Difference between Two Population Means
h)
Hypothesis Test Involving Difference between Two
Population Proportions
i) Confidence Interval
Estimate of Difference between Two Population
Proportions
j) Confidence Interval and
Hypothesis Test with Dependent Paired
Samples
k) Chi-square Goodness-of-Fit
Test
l) Chi-square Test for
Independence
5. Introduction to Regression
Analysis
a) Linear Regression Model
b)
Linear Correlation Coefficient
c) Regression
Model Predictions
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12.
Typical Assignments:
(List types of assignments, including library
assignments.) |
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a.
Reading Assignments:
(Submit at least 2 examples)
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1. Read section of the
textbook on standard scores.
2. Read section
of the textbook on the binomial probability
distribution.
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b.
Writing, Problem Solving or
Performance:
(Submit at least 2 examples)
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1. A woman wrote to Dear
Abby and claimed that she gave birth 308 days
after a visit from her husband, who was in the
Navy. Length of pregnancies have a mean of 268
days and a standard deviation of 15 days. Is
such a length unusual? What do you
conclude?
2. Air America has a policy of
booking as many as 15 persons on an Airplane
that can seat only 14. Past studies have
revealed that only 85% of the booked passengers
actually arrive for the flight. Find the
probability that if Air America books 15
persons, not enough seats will be available. Is
this probability low enough so that overbooking
is not a real concern for
passengers?
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c.
Other
(Terms projects, research papers, portfolios,
etc.) |
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Program title - TOPS Code: |
Mathematics,
General- 170100
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SECTION
D |
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General
Education Information: |
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1. College
Associate Degree GE
Applicability: |
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Communication
& Analytic Thinking
Math
Competency
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2. CSU
GE Applicability (Recommended-requires CSU
approval): |
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B-4
Mathematics/Quantitative
Reasoning
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3. IGETC
Applicability (Recommended-requires CSU/UC
approval): |
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2:
Mathematical Concepts & Quantitative
Reasoning
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4.
CAN: |
STAT
2 |
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SECTION
E |
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Articulation
Information: (Required
for Transferable courses only)
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1. |
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CSU
Transferable. |
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UC
Transferable. |
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CSU/UC
major requirement. |
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If
CSU/UC major requirement, list campus and major.
(Note: Must be lower division) |
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2.
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List
at least one community college and its
comparable course. If requesting CSU
and/or UC transferability also list a CSU/UC
campus and comparable lower division
course. |
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UC Davis : STAT 13
CSU
Sacramento : STAT 1
Sacramento City College :
STAT 300
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SECTION
F |
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Resources: |
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Please
consider the identified concerns below:
1.
Library: Please
identify the implications to the
library
2.
Computer Support Services: Please
identify the implications to Computer Support
Services:
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SECTION
G |
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1. Maximum
Class Size (recommended): 35
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2. If
recommended class size is not standard, then
provide rationale: |
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