College Preparatory Courses
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Curriculum Resources
eTools for Exploration
Mixed Spaced Practice with Homework Help
Skill Builders
Problem Generator
Checkpoints
Solutions Manual for Teachers
eTools for Exploration
Mixed Spaced Practice with Homework Help
Skill Builders
Problem Generator
Checkpoints
Solutions Manual for Teachers
Precalculus Third Editionand Supplement
- Offered with additional AP® Supplements
- Meets standards for 4th year high school math course
- Well balanced among procedural fluency, deep conceptual understanding, strategic competence, and adaptive reasoning
- Design similar to CPM Core Connections courses.
- Introduction to calculus with functions, graphs, limits, area under a curve, and rates of change.
- Labs and hands-on activities introduce and connect concepts, with an emphasis on modeling.
Calculus
Third Edition
- Content required for an AP® Calculus course
- Develops the big ideas of limits, derivatives, integrals and the Fundamental Theorem of Calculus, and series. Labs and hands-on activities introduce concepts.
- Explores derivatives and integrals simultaneously, presented geometrically and in context.
Statistics
- Content required for an AP® Statistics course
- Active learning based, comprehensive, technologically enhanced.
- Students can learn by solving engaging problems together in an active, technology-enhanced, classroom environment.
Computer Science Java
- Covers AP® Computer Science A topics Concepts are introduced with much more student conjecture rather than traditional lectures.
- Encourages collaboration
- Focuses on moving students of all programming abilities to a higher level
- Collaboration between students is a key component
More information on JAVA course design
*Advanced Placement® or AP® is a trademark registered by the College Board, which is not affiliated with, and does not endorse, this website.
Table of Contents
Precalculus Third Edition
Precalculus Third Edition Supplement
Calculus Third Editions
Statistics
Java
View Table of Contents for Calculus
Precalculus Third Edition
- Correlation of CCSS Appendix A to CPM Precalculus Third Edition (PDF)
- Correlation of CPM Precalculus Third Edition to CCSS Appendix A (PDF)
Calculus Third Edition
- Correlation of Calculus Third Edition to AP™ Calculus Curriculum Framework 2016 – 2017 (PDF)
- Correlation of AP™ Calculus Curriculum Framework 2016 – 2017 to CPM Calculus Third Edition (PDF)
Statistics
- Correlation of AP™ Statistics Course Description Topics to CPM Statistics(PDF)
- Correlation of CPM Statistics To AP™ Statistics Course Description Topics(PDF)
*Advanced Placement® or AP® is a trademark registered by the College Board, which is not affiliated with, and does not endorse, this website.
Computer Science Java
Sample Sylabus
- CPM CS Java Syllabus (PDF)
Download Sample Lessons
- Combining Concepts (ZIP)
- Introduction to Arrays (ZIP)
- Paper and Pencil (ZIP)
Algebra Tiles Session
Used throughout CPM middle and high school courses
Concrete, geometric representation of algebraic concepts.
Two-hour virtual session,
Learn how students build their conceptual understanding of simplifying algebraic expressions
Solving equations using these tools.
Determining perimeter,
Combining like terms,
Comparing expressions,
Solving equations
Use an area model to multiply polynomials,
Factor quadratics and other polynomials, and
Complete the square.
Support the transition from a concrete (manipulative) representation to an abstract model of mathematics..
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The Building on Instructional Practice Series consists of three different events – Building on Discourse, Building on Assessment, Building on Equity – that are designed for teachers with a minimum of one year of experience teaching with CPM instructional materials and who have completed the Foundations for Implementation Series.
InBuilding on Equity, participants will learn how to include equitable practices in their classroom and support traditionally underserved students in becoming leaders of their own learning. Essential questions include: How do I shift dependent learners into independent learners? How does my ownmath identityand cultural background impact my classroom? The focus of day one is equitable classroom culture. Participants will reflect on how theirmath identityand mindsets impact student learning. They will begin working on a plan for Chapter 1 that creates an equitable classroom culture. The focus of day two and three is implementing equitable tasks. Participants will develop their use of the5 Practicesfor Orchestrating Meaningful Mathematical Discussions and curatestrategiesfor supporting all students in becoming leaders of their own learning. Participants will use an equity lens to reflect on and revise their Chapter 1 lesson plans.
InBuilding on Assessment, participants will apply assessment research and develop methods to provide feedback to students and inform equitable assessment decisions. On day one, participants will align assessment practices with learning progressions and the principle ofmastery over timeas well as write assessment items. During day two, participants will develop rubrics, explore alternate types of assessment, and plan for implementation that supports student ownership. On the third day, participants will developstrategiesto monitor progress and provide evidence of proficiency with identified mathematics content and practices. Participants will develop assessment action plans that will encourage continued collaboration within their learning community.
InBuilding on Discourse, participants will improve their ability to facilitate meaningful mathematical discourse. This learning experience will encourage participants to adjust their instructional practices in the areas of sharing math authority, developing independent learners, and the creation of equitable classroom environments. Participants will plan for student learning by using teaching practices such as posing purposeful questioning, supportingproductive struggle, andfacilitating meaningful mathematical discourse. In doing so, participants learn to support students collaboratively engaged with rich tasks with all elements of the EffectiveMathematics Teaching Practicesincorporated through intentional and reflective planning.