We may earn an affiliate commission when you visit our partners.
Course image
Jason Hafner, Matt Wilson, and Gigi Nevils

In this four-part series, we will explore AP Physics 1 concepts and prepare for the AP Physics 1 Exam in an exciting and entirely new way. Increase your skills – and your readiness – for the AP Exam though quality videos, inquiry labs, Hollywood-style Concept Trailers™, Direct Measurement Videos, AP problem-solving sessions and more!

Read more

In this four-part series, we will explore AP Physics 1 concepts and prepare for the AP Physics 1 Exam in an exciting and entirely new way. Increase your skills – and your readiness – for the AP Exam though quality videos, inquiry labs, Hollywood-style Concept Trailers™, Direct Measurement Videos, AP problem-solving sessions and more!

In Part 2: Rotational Motion you will learn how to describe rotational motion with kinematics and how torque alters an object’s state of motion. You will learn about rotational energy and angular momentum, and how their conservation laws affect motion. Gravitational forces between two bodies and the resulting motion will be described, as well as simple harmonic motion. The course will cover these physical concepts through lectures, demonstrations, labs, and problem solving strategies

The enhanced AP Exam Prep PLUS 5 is bundled with the edX Verified Certificate. To get PLUS 5, register for the Verified Certificate. The course instructors will email you with directions for how to receive both the extra exam prep and certificate.

You can view or download the complete College Physics for AP®Courses textbook by going to the Reading Assignments page in this course

*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.

Additional Courses in the Preparing for the AP Physics 1 Exam Sequence

*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.

What you'll learn

  • How to describe circular motion with kinematics
  • How torque affects rotational kinematics
  • How rotational energy and angular momentum affect motion
  • About the motion due to Gravitation
  • About the oscillations of harmonic motion
  • How to prepare and review for the AP Physics 1 Exam
  • How to practice critical thinking, writing, and problem-solving with enhanced teacher and peer feedback (AP Exam Prep PLUS 5 only)

Here's a deal for you

We found an offer that may be relevant to this course.
Save money when you learn. All coupon codes, vouchers, and discounts are applied automatically unless otherwise noted.

What's inside

Learning objectives

  • How to describe circular motion with kinematics
  • How torque affects rotational kinematics
  • How rotational energy and angular momentum affect motion
  • About the motion due to gravitation
  • About the oscillations of harmonic motion
  • How to prepare and review for the ap physics 1 exam
  • How to practice critical thinking, writing, and problem-solving with enhanced teacher and peer feedback (ap exam prep plus 5 only)

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Develops an understanding of foundational Rotational Motion concepts, which is a core subject in the AP Exam
The enhanced AP Exam Prep PLUS 5 offers additional exam preparation and teacher feedback, enhancing the learning experience
Covers topics relevant to the AP Physics 1 Exam, making it a valuable resource for students preparing for the exam

Save this course

Save AP® Physics 1 - Part 2: Rotational Motion to your list so you can find it easily later:
Save

Activities

Coming soon We're preparing activities for AP® Physics 1 - Part 2: Rotational Motion. These are activities you can do either before, during, or after a course.

Career center

Learners who complete AP® Physics 1 - Part 2: Rotational Motion will develop knowledge and skills that may be useful to these careers:
Science Teacher
A Science Teacher teaches science subjects, such as physics, chemistry, or biology, to students in secondary schools. They may also work in other educational settings, such as museums or science centers. The AP® Physics 1 - Part 2: Rotational Motion course is a good fit for those interested in pursuing a career as a Science Teacher as it covers essential concepts in classical mechanics, including rotational motion, torque, and angular momentum. This course can help build a strong foundation for teaching physics at the secondary level and prepare students for further study in science education.
Physicist
A Physicist studies the fundamental laws of nature and the physical properties of matter and energy. They may work in a variety of fields, such as research, teaching, or industry. The AP® Physics 1 - Part 2: Rotational Motion course is a good fit for those interested in pursuing a career in Physics as it covers essential concepts in classical mechanics, including rotational motion, torque, and angular momentum. This course can help build a strong foundation for further study in Physics and prepare students for careers in research, academia, or industry.
Aerospace Engineer
An Aerospace Engineer designs, builds, and tests aircraft, spacecraft, and other aerospace vehicles. They may work in a variety of industries, such as aviation, defense, or space exploration. The AP® Physics 1 - Part 2: Rotational Motion course may be useful as it covers concepts like rotational energy, angular momentum, and the motion due to Gravitation. These concepts can help Aerospace Engineers understand the forces and motions involved in aerospace vehicles and design more efficient and effective aircraft and spacecraft.
Robotics Engineer
A Robotics Engineer designs, builds, and operates robots. They may work in a variety of industries, such as manufacturing, healthcare, or defense. The AP® Physics 1 - Part 2: Rotational Motion course may be useful as it covers concepts like rotational energy, angular momentum, and the motion due to Gravitation. These concepts can help Robotics Engineers understand the forces and motions involved in robots and design more efficient and effective robots.
Mechanical Engineer
A Mechanical Engineer designs, builds, and tests mechanical systems and components. They may work in a variety of industries, such as manufacturing, automotive, or aerospace. The AP® Physics 1 - Part 2: Rotational Motion course may be useful as it covers concepts like rotational energy, angular momentum, and the motion due to Gravitation. These concepts can help Mechanical Engineers understand the forces and motions involved in mechanical systems and design more efficient and effective machines.
Mechanical Engineering Technologist
A Mechanical Engineering Technologist applies engineering principles to solve problems in the mechanical field. They may work on a variety of projects, such as designing new products, developing manufacturing processes, or maintaining mechanical systems. The AP® Physics 1 - Part 2: Rotational Motion course may be useful as it covers concepts like rotational energy, angular momentum, and the motion due to Gravitation. These concepts can help Mechanical Engineering Technologists understand the forces and motions involved in mechanical systems and design more efficient and effective solutions.
Nuclear Engineer
A Nuclear Engineer designs, builds, and operates nuclear power plants. They may also work on the development of nuclear weapons or other nuclear technologies. The AP® Physics 1 - Part 2: Rotational Motion course may be useful as it covers concepts like rotational energy, angular momentum, and the motion due to Gravitation. These concepts can help Nuclear Engineers understand the forces and motions involved in nuclear power plants and design more efficient and effective nuclear technologies.
Electrical Engineer
An Electrical Engineer designs, builds, and tests electrical systems and components. They may work in a variety of industries, such as power generation, telecommunications, or manufacturing. The AP® Physics 1 - Part 2: Rotational Motion course may be useful as it covers concepts like rotational energy, angular momentum, and the motion due to Gravitation. These concepts can help Electrical Engineers understand the forces and motions involved in electrical systems and design more efficient and effective electrical devices.
Systems Engineer
A Systems Engineer designs, builds, and tests complex systems, such as computer systems, communication systems, or transportation systems. They may work in a variety of industries, such as technology, manufacturing, or government. The AP® Physics 1 - Part 2: Rotational Motion course may be useful as it covers concepts like rotational energy, angular momentum, and the motion due to Gravitation. These concepts can help Systems Engineers understand the forces and motions involved in complex systems and design more efficient and effective systems.
Petroleum Engineer
A Petroleum Engineer designs, builds, and operates oil and gas wells. They may also work on the development of new oil and gas technologies. The AP® Physics 1 - Part 2: Rotational Motion course may be useful as it covers concepts like rotational energy, angular momentum, and the motion due to Gravitation. These concepts can help Petroleum Engineers understand the forces and motions involved in oil and gas wells and design more efficient and effective oil and gas technologies.
Civil Engineer
A Civil Engineer designs, builds, and maintains infrastructure projects, such as roads, bridges, buildings, and water systems. They may work in a variety of industries, such as construction, transportation, or government. The AP® Physics 1 - Part 2: Rotational Motion course may be useful as it covers concepts like rotational energy, angular momentum, and the motion due to Gravitation. These concepts can help Civil Engineers understand the forces and motions involved in civil engineering projects and design more efficient and effective infrastructure.
Biomedical Engineer
A Biomedical Engineer applies engineering principles to solve problems in the medical field. They may work on a variety of projects, such as developing new medical devices, designing patient care plans, or conducting research on the human body. The AP® Physics 1 - Part 2: Rotational Motion course may be useful as it covers concepts like rotational energy, angular momentum, and the motion due to Gravitation. These concepts can help Biomedical Engineers understand the mechanics of the human body and design more effective medical devices and treatments.
Physical Therapist Assistant
A Physical Therapist Assistant works under the supervision of a physical therapist to provide rehabilitative care to patients with injuries, disabilities, or chronic conditions. They may help patients improve their range of motion, strength, balance, and coordination. The AP® Physics 1 - Part 2: Rotational Motion course may be useful as it covers concepts like torque, rotational kinematics, and the motion due to Gravitation. These concepts can help Physical Therapist Assistants understand the mechanics of movement and how to use therapeutic exercises to improve patient outcomes.
Materials Scientist
A Materials Scientist studies the properties and behavior of materials, such as metals, ceramics, and polymers. They may work in a variety of industries, such as manufacturing, aerospace, or energy. The AP® Physics 1 - Part 2: Rotational Motion course may be useful as it covers concepts like rotational energy, angular momentum, and the motion due to Gravitation. These concepts can help Materials Scientists understand the mechanical properties of materials and design new materials with improved properties.
Dance Instructor
A Dance Instructor teaches dance routines, techniques, and styles to students in various settings, such as dance studios, schools, or community centers. They may specialize in a particular style of dance, such as ballet, jazz, or modern. The AP® Physics 1 - Part 2: Rotational Motion course may be useful as it covers concepts like rotational energy, angular momentum, and the oscillations of harmonic motion. These concepts can help Dance Instructors understand the physics of movement and balance, which can be applied to teaching dance techniques and creating effective dance routines.

Reading list

We haven't picked any books for this reading list yet.

Share

Help others find this course page by sharing it with your friends and followers:

Similar courses

Similar courses are unavailable at this time. Please try again later.
Our mission

OpenCourser helps millions of learners each year. People visit us to learn workspace skills, ace their exams, and nurture their curiosity.

Our extensive catalog contains over 50,000 courses and twice as many books. Browse by search, by topic, or even by career interests. We'll match you to the right resources quickly.

Find this site helpful? Tell a friend about us.

Affiliate disclosure

We're supported by our community of learners. When you purchase or subscribe to courses and programs or purchase books, we may earn a commission from our partners.

Your purchases help us maintain our catalog and keep our servers humming without ads.

Thank you for supporting OpenCourser.

© 2016 - 2024 OpenCourser