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Larry Cain, Peggy Bertrand, and Robert Morse

This course covers 8 different challenging topics in AP® Physics 1. Well-respected AP instructors from around the USA will lead you through video, assessment questions, and interactive activities.

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This course covers 8 different challenging topics in AP® Physics 1. Well-respected AP instructors from around the USA will lead you through video, assessment questions, and interactive activities.

Each module breaks these tricky topics into bite-sized pieces - with short instructional videos, on-screen simulations, interactive graphs, and practice problems written by many of the same people who write and grade your AP® Physics 1 & 2 exams.

Topics include:

  1. Acceleration
  2. Force Diagrams
  3. Free Fall and Projectile Motion
  4. Momentum
  5. Rotational Motion
  6. Angular Momentum
  7. Standing Waves
  8. Conservation of Charge & Energy in Circuits

* Advanced Placement® and AP® are trademarks registered and/or owned by the College Board, which was not involved in the production of, and does not endorse, these offerings. Stand-alone units cover the most challenging concepts in the newly redesigned AP® Physics 1 curricula (based on College Board data from 2011–2013 AP® Physics B exams).

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Covers foundational and challenging topics that align with the recently redesigned AP® Physics 1 curriculum, making it highly relevant for students preparing for the AP® Physics 1 & 2 exams
AP® Physics 1 & 2 exam writers contribute to the course, ensuring alignment with the latest exam requirements
Well-respected AP® instructors from across the USA provide expert guidance and insights throughout the course
Provides a comprehensive study of key concepts in AP® Physics 1, making it suitable for students seeking a deeper understanding of the subject
Incorporates a variety of interactive elements, including videos, simulations, and practice problems, to enhance engagement and understanding

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Career center

Learners who complete AP® Physics 1: Challenging Concepts will develop knowledge and skills that may be useful to these careers:
Physics Teacher
A Physics Teacher instructs and educates students about Physics concepts, principles, and applications. This can occur at the elementary, secondary, and post-secondary level. A Physics Teacher may also help students develop essential skills such as problem solving, data analysis, and critical thinking. Course topics may help build a foundation for this role by teaching topics like Acceleration, Force Diagrams, and Standing Waves.
Physicist
A Physicist conceptualizes and designs experiments to study and interpret changes in the physical world. Experiments can occur in a laboratory or in the field. Some Physicists create models and simulations to build on existing knowledge. Course topics may help build a foundation for this role by teaching topics like Acceleration, Force Diagrams, and Standing Waves.
Research Analyst
A Research Analyst gathers, analyzes, and interprets data and information to solve problems and provide insights in a specialized field. This course may help build a foundation for this role by teaching data analysis and problem-solving techniques through topics such as Force Diagrams, Free Fall and Projectile Motion, and Momentum.
Quality Control Inspector
A Quality Control Inspector ensures that products and services meet established quality standards. This can involve inspecting products, testing them, and reviewing documentation. Course topics may help build a foundation for this role by teaching topics like Force Diagrams, Angular Momentum, and Standing Waves that can be useful in understanding product design and manufacturing processes.
Astronomer
An Astronomer studies the universe and its components, including stars, planets, galaxies, and other celestial objects. This can involve observing and analyzing data from telescopes and satellites. Course topics may help build a foundation for this role by teaching topics like Free Fall and Projectile Motion, Angular Momentum, and Standing Waves.
Environmental Scientist
An Environmental Scientist studies the environment and its components and how they interact. This can involve studying air, water, soil, plants, and animals. Course topics may help build a foundation for this role by teaching topics like Force Diagrams, Free Fall and Projectile Motion, and Standing Waves.
Engineer
An Engineer designs, builds, and maintains structures and systems. This can involve working on a variety of projects, including buildings, bridges, roads, and vehicles. Course topics may help build a foundation for this role by teaching topics like Force Diagrams, Rotational Motion, and Conservation of Charge & Energy in Circuits.
Computer Scientist
A Computer Scientist designs, develops, and implements computer systems and applications. This can involve working on a variety of projects, including software development, data analysis, and artificial intelligence. Course topics may help build a foundation for this role by teaching topics like Rotational Motion, Angular Momentum, and Conservation of Charge & Energy in Circuits.
Financial Analyst
A Financial Analyst evaluates and makes recommendations on investments and financial products. This can involve working on a variety of projects, including portfolio management, risk assessment, and mergers and acquisitions. Course topics may help build a foundation for this role by teaching topics like Momentum, Rotational Motion, and Standing Waves.
Statistician
A Statistician collects, analyzes, and interprets data to draw conclusions and make predictions. This can involve working on a variety of projects, including market research, clinical trials, and public policy analysis. Course topics may help build a foundation for this role by teaching topics like Momentum, Rotational Motion, and Standing Waves.
Mathematician
A Mathematician studies and develops mathematical theories and techniques. This can involve working on a variety of topics, including algebra, geometry, topology, and statistics. Course topics may help build a foundation for this role by teaching topics like Rotational Motion, Angular Momentum, and Conservation of Charge & Energy in Circuits.
Operations Research Analyst
An Operations Research Analyst uses mathematical and analytical techniques to solve problems and improve decision-making in organizations. This can involve working on a variety of projects, including supply chain management, scheduling, and inventory control. Course topics may help build a foundation for this role by teaching topics like Momentum, Rotational Motion, and Standing Waves.
Technical Writer
A Technical Writer creates and edits technical documentation, such as manuals, reports, and presentations. This can involve working on a variety of topics, including software, hardware, and engineering. Course topics may help build a foundation for this role by teaching topics like Acceleration, Force Diagrams, and Standing Waves.
Consultant
A Consultant provides advice and guidance to organizations on a variety of topics, including business strategy, operations, and technology. This can involve working on a variety of projects, including market research, feasibility studies, and implementation plans. Course topics may help build a foundation for this role by teaching topics like Acceleration, Force Diagrams, and Standing Waves.
Science Writer
A Science Writer writes and edits articles, books, and other materials about science and technology. This can involve working on a variety of topics, including physics, chemistry, biology, and astronomy. Course topics may help build a foundation for this role by teaching topics like Acceleration, Force Diagrams, and Standing Waves.

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