Physics - Dynamics for High School and AP Physics 1 from Udemy

This course is one of several courses designed for Algebra Based AP Physics 1. In this course we will cover the topic of Dynamics, which includes Newton's Laws, Linear Forces, Centripetal Forces, and Gravitation.

The videos and resources will include lectures, demonstrations, and plenty of worked out example problems with High School physics curriculum and the AP Physics 1 curriculum in mind. This is perfect for any student planning to take the AP exam or any Introductory College physics student. While this course does not cover calculus based physics, any student enrolled in such course will still benefit from the ground work laid out here.

While this course does have sections for both High School and AP Level Physics, the videos intended for the AP crowed will be clearly labeled.

Upon completion of this course students should look to complete my other courses regarding the other content areas in AP Physics 1 and AP Physics 2.

What's inside

Learning objective

Have a deep understanding of the concepts of dynamics such as newton's laws, centripetal motion, and gravitation.

Syllabus

Introduction to Dynamics

Introduction

Physics Course Online Course Map

Workbook - Dynamics Part 1

AP Physics 1 Content - Not in Regents Curriculum!

Traffic lights

Read about what's good

what should give you pause

and possible dealbreakers

Provides a solid foundation in dynamics, which is essential for success in AP Physics 1 and introductory college physics courses

Includes lectures, demonstrations, and worked-out example problems, which are helpful for visual learners and those who benefit from step-by-step guidance

Offers a large pack of worksheets, which allows learners to practice and reinforce their understanding of the concepts

Focuses on dynamics, including Newton's Laws, linear forces, centripetal forces, and gravitation, which are core topics in introductory physics

Explicitly advises students to complete other courses regarding the other content areas in AP Physics 1 and AP Physics 2

Includes content that is specific to AP Physics 1 and not part of the standard Regents curriculum

Reviews summary

Physics dynamics for high school and ap

According to learners, this course offers a solid foundation in physics dynamics, specifically targeting High School and AP Physics 1 students. Many found the explanations clear and easy to follow, especially for complex topics like Newton's Laws and inclined planes. The worked examples and comprehensive workbooks are frequently highlighted as extremely helpful for practice and reinforcing understanding. The course is seen as particularly useful for AP exam preparation, with reviewers appreciating the clearly labeled AP-specific content. While some noted the production style, the content quality remains high and is well-suited for its intended audience.

Instructor's approach makes learning engaging.

"The instructor made physics understandable and interesting for me."

"Liked the teacher's way of explaining things."

"Good teaching style throughout the lectures."

"Easy to follow the instructor."

Covers key dynamics topics thoroughly.

"I got a good overview of Newton's laws, friction, etc."

"All the dynamics topics for AP Phys 1 are here."

"Covered centripetal motion and gravitation well."

"Satisfied with the topics covered."

Practice materials provide essential reinforcement.

"The extra workbooks were a lifesaver for practice."

"Plenty of problems to test my understanding."

"Appreciate the huge packs of worksheets."

"Practice problems are very useful."

Worked-out examples aid in problem-solving skills.

"The worked examples really helped solidify my understanding."

"Lots of examples showing how to apply the formulas."

"Great to see how to solve different types of problems."

"Learned problem-solving techniques from the examples."

Directly applicable content for the AP exam.

"This was perfect preparation for the AP Physics 1 exam."

"The AP-only sections were exactly what I needed."

"Relevant topics covered for the AP curriculum."

"Helped me get ready for AP Physics."

Concepts are explained in an easy-to-understand way.

"The explanations were so clear, especially for complex topics."

"I finally understood Newton's Laws after watching these lectures."

"He breaks down inclined planes wonderfully."

"Found the concepts well explained."

Some learners seek more challenging problems.

"Good for foundation, but maybe not enough challenge."

"Looking for harder problems."

"I felt it could use a few more difficult problems in the workbooks."

"Wish there were more complex examples for advanced students."

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Physics - Dynamics for High School and AP Physics 1 with these activities:

Review Algebra Fundamentals

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Reinforce your algebra skills, as dynamics problems rely heavily on algebraic manipulation to solve for unknowns.

Browse courses on Algebra

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Review solving linear equations.
Practice manipulating formulas to isolate variables.
Work through word problems involving rates and proportions.

Conceptual Physics

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Solidify your understanding of the fundamental concepts of dynamics through qualitative explanations and real-world examples.

View Conceptual Physics on Amazon

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Read chapters related to Newton's Laws and gravitation.
Work through the end-of-chapter conceptual questions.
Relate the concepts to everyday experiences.

Practice Free Body Diagrams

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Improve your ability to visualize forces acting on objects, which is crucial for applying Newton's Laws correctly.

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Draw free body diagrams for objects on inclined planes.
Draw free body diagrams for objects with friction.
Draw free body diagrams for objects in circular motion.

Three other activities

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Show all six activities

Physics for Scientists and Engineers

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Expand your knowledge of dynamics with a comprehensive textbook that includes numerous examples and practice problems.

View Physics for Scientists and Engineers, Cengage... on Amazon

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Read chapters related to Newton's Laws and gravitation.
Work through the example problems in the book.
Attempt the end-of-chapter problems.

Create a Dynamics Problem Set

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Deepen your understanding by creating your own challenging dynamics problems and solutions.

Browse courses on Dynamics

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Design problems involving multiple forces and constraints.
Solve the problems and create detailed solutions.
Share the problem set with peers for feedback.

Tutor Students in Dynamics

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Reinforce your understanding of dynamics by explaining concepts and solving problems for other students.

Browse courses on Dynamics

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Offer tutoring sessions to classmates or younger students.
Prepare explanations and examples for common problem areas.
Provide constructive feedback and guidance.

Career center

Learners who complete Physics - Dynamics for High School and AP Physics 1 will develop knowledge and skills that may be useful to these careers:

Physics Teacher

A physics teacher guides students through the fundamental principles of physics, and this course provides a strong foundation in dynamics, a core topic in introductory physics. This course covers Newton's Laws, linear forces, centripetal forces, and gravitation, all of which are essential concepts for a physics teacher to understand and explain to students. The course also includes lectures, demonstrations, and worked-out example problems, mirroring the teaching methods often used in the classroom. These resources help a physics teacher develop effective lesson plans and strategies for teaching these concepts. Furthermore, a teacher preparing for AP Physics will find this course particularly helpful, as it covers the AP Physics 1 curriculum.

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Tutor

A tutor offers individualized instruction to students, and this course in dynamics helps a tutor to better assist students struggling with the topic. This course specifically addresses Newton's Laws, linear forces, centripetal forces, and gravitation, which are often challenging topics for students in introductory physics. By thoroughly understanding these concepts, a tutor can effectively explain them to their students. The worked-out example problems provided in this course are very beneficial for a tutor, as they can offer them to the student as another example. The course's clear labeling of content as either high school or AP level allows tutors to tailor their approach depending on their students' level, making this course essential for any physics tutor.

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Curriculum Developer

A curriculum developer creates educational materials, and this course, with its specific focus on dynamics, helps in creating effective physics curriculum. This course provides a structured approach to dynamics, including Newton's Laws, linear forces, centripetal forces, and gravitation, which are foundational concepts that any curriculum developer must know. The inclusion of lectures, demonstrations, and worked-out examples ensures that a curriculum developer can design resources that are engaging and effective for students. The course's segmentation into high school and AP level content also helps a curriculum developer understand the different needs of these two student groups and informs development of varying materials.

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Textbook Author

A textbook author writes educational material aimed at students, and this course can help an aspiring author ensure that the content of textbooks is both accurate and rigorous. This course provides thorough coverage of dynamics, including Newton's Laws, linear forces, centripetal forces, and gravitation, forming a basis for any introductory physics textbook. The course’s structure, with lectures, demonstrations, and worked-out examples may be instructive in how a textbook author presents information. This course's detailed approach to both high school and AP level content makes it a valuable resource for a textbook author who wants to reach a wide audience.

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Instructional Designer

An instructional designer creates educational resources and experiences, and this course can help someone in this field focus on the design for physics education. This course provides a thorough understanding of dynamics, including Newton's Laws, linear forces, centripetal forces, and gravitation, and understanding these topics is necessary for any instructional designer working in physics. This course provides lectures, demonstrations, and worked-out examples, which can be used as inspiration for designing effective instructional materials. Moreover, the course content targeting both high school and AP levels allows an instructional designer to better tailor resources for different educational requirements, making this course helpful for instructional designers in physics.

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Science Writer

A science writer communicates scientific concepts to a broader audience, and this course on dynamics helps build a knowledge base for this career. This course covers Newton's Laws, linear forces, centripetal forces, and gravitation, providing a comprehensive overview of the fundamentals of dynamics. A science writer can use this knowledge to write articles, blogs, or educational content that is accurate and engaging. The course's use of demonstrations and worked-out examples can also help a science writer to develop creative ways to explain complex physics topics to diverse audiences. The course’s focus on the AP Physics curriculum also makes it useful for those writing for audiences interested in higher level physics.

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Educational Consultant

An educational consultant advises schools and educational organizations, and this course can help them understand the physics curriculum better. This course, with its coverage of dynamics including Newton's Laws, linear forces, centripetal forces, and gravitation, provides an understanding of key topics within physics. The course material includes lectures, demonstrations, and worked-out examples, which may be helpful for a consultant to evaluate different teaching methods. Moreover, the differentiation of high school and AP level content helps a consultant develop strategies for improving physics education at all levels.

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Science Communicator

A science communicator translates complex scientific topics into easily understandable content for the public, and this course provides fundamental knowledge for communications about physics. This course in dynamics covers key topics such as Newton’s Laws, linear forces, centripetal forces, and gravitation which could be the topic of a communications piece. The lectures, demonstrations, and worked-out examples could also inspire a science communicator on how to explain these concepts to a wide audience. By taking this course, a science communicator can build the foundational knowledge required to produce quality work, making this course useful in improving skills.

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Physics Professor

A physics professor teaches at the college or university level, and this course on dynamics may help an aspiring professor prepare for more advanced courses. To instruct in higher level courses, an understanding of basic physics is required, and this course covers Newton's Laws, linear forces, centripetal forces, and gravitation, which are the building blocks of classical mechanics. The course's lectures, demonstrations, and worked-out examples provide a strong foundation with which to teach and to prepare more advanced lessons. Further, this course is especially helpful for a professor who teaches introductory level classes as it includes coverage of both high school and AP level topics.

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Science Journalist

A science journalist reports on scientific developments, and this course helps build a foundation in physics relevant for their reporting. This course offers thorough coverage of dynamics, including Newton's Laws, linear forces, centripetal forces, and gravitation, which are often the basis for news in physics and engineering. By studying the lectures, demonstrations, and worked-out examples, a science journalist can better understand the underlying principles behind complex physics topics. Further, the course's coverage of both High School and AP level material provides a range of material to use in the reporting, making this a potentially useful course.

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Mechanical Engineer

A mechanical engineer designs and develops mechanical systems, and a course such as this in dynamics provides a fundamental understanding of the principles behind these systems. This course covers Newton's Laws, linear forces, centripetal forces, and gravitation, all of which are critical for mechanical engineering design. The worked-out example problems in the course are also helpful for an engineer who must problem solve. While this course is not calculus-based, it still helps build a foundation that any mechanical engineer may find useful when working with dynamic systems.

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Aerospace Engineer

An aerospace engineer designs and develops aircraft and spacecraft, and a course in dynamics can be useful for understanding flight. This course covers Newton's Laws, linear forces, centripetal forces, and gravitation, all of which are critical to understanding many aspects of flight. The course's emphasis on problem-solving with worked-out examples may help an engineer prepare to calculate the flight characteristics of vehicles. While this course is not calculus-based, it still may help build a foundation which may be used later in the field.

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Research Assistant

A research assistant supports research projects, and this course can prepare an aspiring research assistant for roles in physics-related areas. This course offers a detailed explanation of dynamics, including Newton's Laws, linear forces, centripetal forces, and gravitation, providing a solid foundation in physics. The lectures, demonstrations, and worked-out example problems also develop critical thinking and problem-solving skills valuable in a research environment. The course’s specific focus on high school and AP level physics is useful for research in educational contexts.

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Laboratory Technician

A laboratory technician supports experiments in a lab, and this course helps in performing lab duties in a physics lab. The course's focus on dynamics, including Newton's Laws, linear forces, centripetal forces, and gravitation, provides the theoretical background for many experiments. The course demonstrates how a student might learn through problem solving, and may be applicable during experimentation in a lab. This course may be beneficial to an aspiring lab technician, although it does not cover lab techniques specifically.

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Software Developer

A software developer creates computer programs and applications, using a skill set that may be relevant to creating simulations or educational tools. This course provides fundamental knowledge of dynamics, including Newton’s Laws, linear forces, centripetal forces, and gravitation, which may be necessary for coding simulations or tools related to these topics. While this course will not teach the programming itself, the worked out example problems may inspire methods for coding. Given that software development is broad, this course may be applicable, but is not always useful for a successful entry into this field.

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Physics - Dynamics for High School and AP Physics 1

What's inside

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Reviews summary

Physics dynamics for high school and ap

Activities

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