Course Syllabus
Welcome
We are pleased that you selected this course to fulfill your unique educational needs. You are now a member of the Mizzou Academy's global student body.
Course Overview
This course continues from Algebra 2A.
Prerequisites: Successful completion of Algebra I and Geometry, and Algebra 2A.
The principal goal of this course is to lay a foundation for College Algebra. If there is a topic that you are not completely confident about, spend more time on it. The remainder of the course builds on the foundation laid in Algebra I.
Lead Teacher Introduction
Brennan Ransdell
Teacher
Mathematics Division Chair
Academic Integrity Policy
Our academic integrity policy at Mizzou Academy is based on our values of ethical behavior, learning, and giving all stakeholders the benefit of the doubt. Collaboration, research, and technical literacy are vital 21st-century skills when combined with academic integrity.
Definitions
Mizzou Academy's academic integrity policy is aligned with the University of Missouri’s academic integrity policy. The definitions of what constitutes "cheating" and "plagiarism"are posted on the Provost’s Advising Council’s webpage which can be found here: https://advising.missouri.edu/policies/academic-integrity.
Issues Involving Violations of Academic Integrity
If we evaluate an assignment or exam and find that it does not demonstrate academic integrity, consequences include partial or no credit given for that work. If you fall into a pattern of academic dishonesty, more serious consequences will follow.
Use of AI and Online Resources
Online resources, including ChatGPT and other generative artificial intelligence tools, should be used responsibly. Many assignments don’t necessitate the use of resources. For example, personal reflections, examples, and narratives, creative writing, and reflections and journal entries are meant to capture your unique experiences and ideas.
For some assignments, AI tools and online resources can assist you in your learning. They can help you develop and support your original work. That said, they cannot and should not replace your original work.
We view using online sources, much like collaborating with classmates. As a learner, you will often seek ideas from others by having conversations, exploring a variety of information sources, and doing more formal research. Likewise, online and AI tools can help you gather ideas, decide how to organize them, and find the best ways to support those ideas. We believe that learning how to use all the tools and resources available to you purposefully, effectively, and responsibly is a key skill for school and life.
If you use any ideas, information, or wording from your resources–including generative, collaborative, print, and online resources–you must give credit to those sources by honestly identifying which resources you used.
For more information about when and how to cite resources, as well as tips and examples of how to use them appropriately and effectively, please visit our Learning Library, Shelves 9 and 9.5.
Accessibility
If you anticipate barriers related to the format or requirements of this course, please let Mizzou Academy know as soon as possible. If disability-related accommodations are necessary (for example, a scribe, reader, extended time on exams, captioning), please contact Mizzou Academy.
About Exams at Mizzou Academy*
Your exams are online. It is your responsibility to schedule your exams.
During exams, unless otherwise noted, you are not allowed to navigate away from the exam or use any other resources. If you deviate from the exam guidelines without proper prior permission, it is considered cheating on an exam.
Scheduling Exams
Global Courses
Mizzou Academy values fair testing and assessment to determine that students master essential course concepts and skills. During a proctored exam, tests are supervised by an impartial individual (a proctor) to help ensure that all exams maintain academic integrity. You will need to use a Mizzou Academy approved proctor. Please see the Exam Proctoring webpage for more information.
- Choose a proctor and make arrangements for taking the exam.
- At least 2 weeks prior to taking your exam, submit your proctor information to Mizzou Academy
- You will be sent an email notice indicating if your chosen proctor has been approved or denied.
- Arrive at your proctor’s testing site at the scheduled time with a photo ID. At testing time, you will log into your Mizzou Academy account and select the exam for your proctor to access and administer.
Global Classroom Courses
If you are taking a global classroom course, work with your local teacher to identify your date of the exam and how you will be proctored. You do not need to request an exam date with the above form.
HOW TO PREPARE FOR EXAMS
- Complete and review all assignments.
- Review the learning objectives; make sure you can accomplish them.
- Be prepared to explain any key terms and concepts.
- Review all the lessons, exercises, and study questions.
- Review any feedback and/or comments on your assignments and previous exams; look up answers to any questions you missed.
Additional Course Policies and links
**Not applicable to World Language courses.
Course Objectives
The objectives of this course are that students will be able to:
Lesson 1
1.1a Simplify expressions with roots
1.1b Estimate and approximate roots
1.1c Simplify variable expressions with roots
1.2a Use the Product Property to simplify radical expressions
1.2b Use the Quotient Property to simplify radical expressions
1.3a Simplify expressions with
1.3b Simplify expressions with
1.3c Use the properties of exponents to simplify expressions with rational exponents
Lesson 2
2.1a Add and subtract radical expressions
2.1b Multiply radical expressions
2.1c Use polynomial multiplication to multiply radical expressions
2.2a Divide radical expressions
2.2b Rationalize a one term denominator
2.2c Rationalize a two term denominator
2.3a Solve radical equations
2.3b Solve radical equations with two radicals
2.3c Use radicals in applications
2.4a Evaluate a radical function
2.4b Find the domain of a radical function
2.4c Graph radical functions
Lesson 3
3.1a Solve quadratic equations of the form ax2 = k using the Square Root Property
3.1b Solve quadratic equations of the form a(x – h)2 = k using the Square Root Property
3.2a Complete the square of a binomial expression
3.2b Solve quadratic equations of the form by completing the square
3.2c Solve quadratic equations of the form by completing the square
3.3a Solve quadratic equations using the Quadratic Formula
3.3b Use the discriminant to predict the number and types of solutions of a quadratic equation
3.3c Identify the most appropriate method to use to solve a quadratic equation
3.4a Solve quadratic equations in quadratic form
3.5a Solve applications modeled by quadratic equations
Lesson 4
4.1a Recognize the graph of a quadratic function
4.1b Find the axis of symmetry and vertex of a parabola
4.1c Find the intercepts of a parabola
4.1d Graph quadratic functions using properties
4.1e Solve maximum and minimum applications
4.2a Graph quadratic functions of the form f(x) = x2 + k
4.2b Graph quadratic functions of the form f(x) = (x – h)2
4.2c Graph quadratic functions of the form f(x) = ax2
4.2d Graph quadratic functions using transformations
4.2e Find a quadratic function from its graph
4.3a Solve quadratic inequalities graphically
4.3b Solve quadratic inequalities algebraically
Lesson 5
5.1a Find and evaluate composite functions
5.1b Determine whether a function is one-to-one
5.1c Find the inverse of a function
5.2a Graph exponential functions
5.2b Solve exponential equations
5.2c Use exponential models in applications
5.3a Convert between exponential and logarithmic form
5.3b Evaluate logarithmic functions
5.3c Graph logarithmic functions
5.3d Solve logarithmic equations
5.3e Use logarithmic models in applications
5.4a Use the properties of logarithms
5.4b Use the Change of Base Formula
5.5a Solve logarithmic equations using the properties of logarithms
5.5b Solve exponential equations using logarithms
5.5c Use exponential models in applications
Lesson 6
6.1a Use the Distance Formula
6.1b Use the Midpoint Formula
6.1c Write the equation of a circle in standard form
6.1d Graph a circle
6.2a Graph vertical parabolas
6.2b Graph horizontal parabolas
6.2c Solve applications with parabolas
6.3a Graph an ellipse with center at the origin
6.3b Find the equation of an ellipse with center at the origin
6.3c Graph an ellipse with center not at the origin
6.3d Solve applications with ellipses
6.4a Graph a hyperbola with center at the origin
6.4b Graph a hyperbola with center (h, k)
6.4c Identify conic sections by their equations
6.5a Solve a system of nonlinear equations using graphing
6.5b Solve a system of nonlinear equations using substitution
6.5c Solve a system of nonlinear equations using elimination
6.5d Use a system of nonlinear equations to solve applications
Lesson 7
7.1a Identify and differentiate between populations and samples
7.1b Identify and differentiate between statistics and parameters
7.1c Identify and differentiate between variables and data
7.2a Identify and differentiate between quantitative and qualitative data
7.2b Identify and differentiate between quantitative discrete and quantitative continuous data
7.2c Identify appropriate graphs for qualitative data
7.2d Identify types of samples
7.3a Identify and differentiate between levels of measurement
7.3b Find frequencies, relative frequencies, and cumulative relative frequencies
7.4a Identify explanatory and response variables in experiments
7.4b Identify treatments in experiments
7.4c Identify lurking variables in experiments
7.4d Differentiate between observational studies and experiments
Lesson 8
8.1a Determine quartiles and interquartile range (IQR)
8.1b Identify outliers
8.1c Determine percentiles
8.2a Determine the mean of a sample and population
8.2b Determine the median of a sample and population
8.2c Determine the mode of a sample and population
8.3a Determine the standard deviation of a sample and population
8.3b Determine z-scores to compare values from different data sets
8.4a Determine z-scores to determine standard deviations from the mean in normal distributions
8.4b Apply the Empirical Rule to determine the values within percentages from the mean
8.5a Find the probability of ranges of values in a normal distribution
8.5b Find the percentile of values in a normal distribution
Lesson 9
9.1a Identify and describe sample spaces and events
9.1b Find basic probabilities (including conditional)
9.2a Identify independent events
9.2b Identify mutually exclusive events
9.2c Determine the probability of events in simple experiments Find the least common denominator of rational expressions
9.2d Determine conditional probabilities
9.3a Apply the multiplication rule to find probabilities
9.3b Apply the addition rule to find probabilities
Lesson 10
10.1a Calculate the confidence interval for a population mean (known standard deviation)
10.1b Interpret the confidence interval for a population mean (known standard deviation)
10.1c Calculate error bound (margin of error) for a population mean (known standard deviation)
10.2a Calculate the confidence interval for a population mean (unknown standard deviation)
10.2b Interpret the confidence interval for a population mean (unknown standard deviation)
10.2c Calculate error bound (margin of error) for a population mean (unknown standard deviation)
10.3a Calculate the confidence interval for a population proportion
10.3b Calculate error bound (margin of error) for a population proportion
10.3c Calculate the sample size needed for a specific error bound (margin of error)
Required Materials
There is no textbook for this course.
A graphing calculator is helpful but not required for the course, and its use is NOT ALLOWED on the midterm and final exams. A basic calculator is strongly suggested.
Technical Requirements
The most up-to-date requirements can be found here:
- Computer Requirements
- Browser Requirements
- Proctoring Requirements
- Microphone (external or internal)
- Webcam
Additional requirements for the course are below:
- audio and video recording capabilities (e.g. smartphone, camera)
Quizzes & Assignments
You should submit all assigned work in sequence (Lesson 1, then Lesson 2, etc.) Assignments for the course are listed at the bottom of this syllabus.
Quizzes
Quizzes are taken online. After you submit them, you’ll quickly receive a report on how you did. Unlike exams, you may use any assigned readings, your notes, and other course-related materials to complete graded quizzes and assignments. Please note that graded quizzes cannot be retaken.
Assignments
Assignments may require you to submit your completed work in the form of a file (such as a text document, image, audio or video recording, or multimedia presentation) or a hyperlink for grading.
Reading and Using Feedback
After your work has been graded, you will receive a report that provides individualized feedback and comments on your work. Look carefully at what you missed and read any corresponding feedback. Then study the lesson materials to make certain that you can accomplish the associated learning objectives.
Each lesson provides step-by-step instructions on how to submit your work. Be sure to check submitted work carefully for errors (e.g. spelling, grammar, and punctuation) as they may result in points being deducted.
Exams
You are required to take two proctored exams for this course.
See the "About Exams" in the policies section for additional information on exams at Mizzou Academy.
Exam Matrix |
||
Midterm Exam (covers Lessons 1–5) |
Final Exam (covers Lessons 6-10) |
|
When to Request an Exam |
Once you have completed Lesson 5. |
Once you have completed Lesson 10. |
Questions and Type |
45 multiple-choice 5 free-response |
45 multiple-choice 5 free-response |
Points Possible |
Multiple Choice: 180 points |
Multiple Choice: 180 points |
Time Limit |
Multiple Choice: 2.5 hours Free Response: No Time Limit |
Multiple Choice: 2.5 hours Free Response: No Time Limit |
What to Bring to the Exam Site |
You are allowed to use the following during the exam:
Personal whiteboard and tissue/eraser (recommended small-tip marker like a pen) - You will erase the board in front of the proctor at the end of the exam. |
Grades
Your final grade will be based on the number of points you earn on assignments and exams.
Grade | Percentage | Point Total |
---|---|---|
A | 90–100 | 675-750 |
B | 80–89 | 600-674 |
C | 70–79 | 525-599 |
D | 60–69 | 450-524 |
F | 0–59 | < 450 |
Note: All scores (and thus percentages) are truncated DOWN. For example, earning 524.999 points would result in a percentage of 69%, or a D in the course.
After completing the course, unofficial transcripts will be available in the Tiger Portal. See this page for information on requesting official transcripts.
Getting Started Resources (Canvas and Other Resources)
Explore the resources below to learn more about each element and how they work in your Mizzou Academy Canvas course.
Canvas and Technical Support
Canvas will be used as the primary platform for accessing course materials and assignments for this class.
- Access Canvas through the Tiger Portal https://cehd.missouri.edu/mizzou-academy/
- View Canvas Guides by Mobile App
- Getting Started with Canvas
- For Canvas, Passwords, or any other computer-related technical support create a ticket in Canvas or contact Mizzou Academy Support.
- How do I get help with Canvas as a student?
- Mizzou AcademySupport Phone: +1 855 256-4975
- Mizzou Academy Email - MizzouAcademy@missouri.edu
Course Summary:
Date | Details | Due |
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