Physics - Energy and Momentum - High School and AP Physics from Udemy

This course is one of several courses designed for Algebra Based AP Physics 1. In this course we will cover the topics of Mechanical Energy and Momentum. Subtopics include work, potential and kinetic energy, elastic potential energy, Hooke's law, conservation of energy, momentum, impulse, and conservation of momentum.

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

Understand the concepts of physics pertaining to mechanical energy and momentum.

Syllabus

Introduction

Course Introduction

Physics Course Online Course Map

Workbook - Energy

Traffic lights

Read about what's good

what should give you pause

and possible dealbreakers

Includes lectures, demonstrations, and worked examples aligned with high school and AP Physics 1 curricula, making it suitable for exam preparation

Covers mechanical energy and momentum, which are fundamental concepts in introductory physics courses at the high school and college levels

Provides a solid groundwork in energy and momentum, which can benefit students even if they are enrolled in calculus-based physics courses

Features sections specifically designed for AP level physics, which are clearly labeled to help students focus on relevant content

Includes AP exam review problems from previous years, offering valuable practice for students preparing for the AP Physics exam

Recommends completing other courses to cover the remaining content areas in AP Physics 1 and 2, suggesting a serial approach to learning

Reviews summary

Clear explanations for physics energy and momentum

According to students, this course provides very good and clear explanations, making topics like energy and momentum easy to follow. The inclusion of helpful examples and practice problems was frequently mentioned as a strength. Many learners found it highly beneficial for gaining a solid understanding and preparing for High School and AP Physics 1. While widely praised for its simplicity and clarity, a few reviewers noted it could potentially benefit from more challenging practice problems and greater depth for advanced AP preparation, suggesting it might function best as an introductory resource or supplement rather than a standalone AP prep tool.

Worked examples aid in understanding topics.

"great examples, easy to follow along."

"practice problems are very helpful."

"Very helpful explanations and examples. Helped me understand complex topics."

"Straight to the point, clear explanations and examples."

"Clear explanations and good examples."

"Simple explanations, good examples."

Good for introductory understanding.

"Perfect for AP Physics 1."

"Very good course, helps understand topics better."

"Recommended for those wanting a solid understanding."

"Helped a lot with AP Physics 1."

"explained complicated topics simply. Good pace."

Concepts are explained simply and clearly.

"Straightforward, clear explanations, great examples, easy to follow along."

"Very good explanations, instructor is clear and easy to understand. Covers concepts well."

"Excellent explanations, practice problems are very helpful."

"Straight to the point, clear explanations and examples. Recommended for those wanting a solid understanding."

"Clear explanations and good examples."

"Good basic explanations, but could be more in depth. For beginners/refreshers."

May require supplement for advanced prep.

"Good, but could be more challenging. Too simple explanations. Some examples are hard to understand or too simple."

"Needs more challenge/detail for advanced learners."

"Good basic explanations, but could be more in depth. ... Not sufficient for AP exam prep alone."

"More practice problems needed for AP level."

"While the course is great for learning the basics, I found I needed external resources for more advanced problems."

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 - Energy and Momentum - High School and AP Physics with these activities:

Review Algebra Fundamentals

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Strengthen your algebra skills to better understand the mathematical concepts used in energy and momentum calculations.

Browse courses on Algebra

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Review key algebraic concepts such as solving equations and manipulating formulas.
Practice applying these concepts to physics-related problems.

Read 'Physics for Scientists and Engineers' by Serway and Jewett

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Supplement your learning with a comprehensive physics textbook that covers energy and momentum in detail.

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

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Obtain a copy of 'Physics for Scientists and Engineers'.
Read the chapters related to energy and momentum.
Work through the example problems in the book.
Use the book as a reference when solving practice problems.

Worksheet: Energy and Momentum Problems

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Reinforce your understanding of energy and momentum by solving a variety of practice problems.

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Find a worksheet containing energy and momentum problems.
Solve each problem, showing all your work.
Check your answers against the solutions.
Review the concepts for any problems you missed.

Four other activities

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Explore Physics Simulations Online

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Use interactive simulations to visualize energy and momentum concepts and experiment with different scenarios.

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Search for online physics simulations related to energy and momentum.
Experiment with different parameters in the simulations.
Observe how changes in parameters affect the outcome.
Relate the simulation results to the concepts learned in the course.

Read 'Six Easy Pieces' by Richard Feynman

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Gain a deeper understanding of fundamental physics concepts by reading Richard Feynman's accessible explanations.

View Six Not-So-Easy Pieces: Einstein's Relativity,... on Amazon

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Obtain a copy of 'Six Easy Pieces'.
Read the sections related to energy and motion.
Reflect on how Feynman's explanations relate to the course material.

Create a Video Explaining Conservation of Energy

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Solidify your understanding of conservation of energy by creating a video explaining the concept to others.

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Choose a specific scenario to illustrate conservation of energy.
Write a script explaining the concept and the chosen scenario.
Record a video explaining the concept, working through the example.
Edit the video for clarity and conciseness.

Design a Rube Goldberg Machine

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Apply your knowledge of energy and momentum to design and build a Rube Goldberg machine.

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Plan the sequence of events in your Rube Goldberg machine.
Gather materials to build the machine.
Build and test each step of the machine.
Refine the design to ensure smooth operation.

Career center

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

Physics Teacher

A physics teacher introduces students to the fundamental principles of physics, fostering an environment where they can explore and understand the physical world around them. This course, which delves into mechanical energy and momentum, helps build a solid foundation in key physics concepts. The course’s emphasis on worked examples and demonstration videos directly aids a physics teacher’s ability to explain these complex ideas to students. By understanding the curriculum of AP Physics, you will be better prepared to teach your own students. This course, therefore, will prove useful for anyone entering into the field of teaching physics, particularly at the high school level.

See salaries and explore the career path for Physics Teacher

Tutor

A tutor works with students individually, or in small groups, to help them understand course material, improve their study skills, and prepare for exams. This particular course, focusing on mechanical energy and momentum, helps develop a mastery of key concepts in physics needed to provide effective tutoring. The course's numerous example problems can be used to create customized study sessions and practices for students seeking to improve their skills. Specifically, the inclusion of AP level materials will help a tutor working with students following that curriculum. This course may be useful for someone planning to become a tutor in physics.

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Automotive Engineer

An automotive engineer designs, develops, and tests vehicles and their components, focusing on areas such as performance, safety, and fuel efficiency. This course, which covers mechanical energy and momentum, provides fundamental knowledge that is crucial to understanding vehicle dynamics, braking systems, and engine performance. Topics like work, power, and the conservation of energy and momentum are directly relevant to the challenges of automotive engineering. An automotive engineer will find this course helps build a foundation for their work.

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Mechanical Engineer

A mechanical engineer designs, develops, and tests mechanical devices, tools, engines and systems. This course, which covers mechanical energy and momentum, provides concepts that are essential for mechanical engineers. Understanding topics like work, potential and kinetic energy, and conservation of momentum is critical for designing and evaluating mechanical systems. The course’s focus on example problems directly helps in applying these principles to real-world engineering challenges, and would therefore be helpful to anyone pursuing a career in mechanical engineering.

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Physics Professor

A physics professor teaches physics at the college or university level, conducts research, and mentors students. This course, focusing on mechanical energy and momentum, helps to develop a mastery of foundational physics concepts necessary for higher education teaching. The course's comprehensive approach to topics like work, kinetic energy, potential energy, and conservation of momentum, will benefit professors in designing curriculum and teaching introductory physics. A physics professor will find this course helpful for their teaching.

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Aerospace Engineer

An aerospace engineer designs, develops, and tests aircraft, spacecraft, and related systems. This course, focusing on mechanical energy and momentum, provides foundational knowledge essential to aerospace engineering. Concepts such as kinetic energy, potential energy, and conservation of momentum are key to understanding flight dynamics and propulsion systems. The course’s emphasis on problem-solving helps in design and testing. For an aerospace engineer, this course helps to establish a firm base in the physics of movement.

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Robotics Engineer

A robotics engineer designs, builds, and tests robots for various applications, from manufacturing to healthcare. This course, which centers on mechanical energy and momentum, provides foundational knowledge that is directly relevant to understanding how robots move and interact with their environment. The course's discussion of work, power, and conservation of energy helps an engineer work with robotic systems that rely on these principles. Anyone interested in robotics will find that this course helps to build a base in the physics of motion.

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Curriculum Developer

A curriculum developer designs and creates educational materials for students, often working with schools and educational institutions. This course, focused on energy and momentum in high school and AP physics, develops a deep comprehension of the topics needed for creating effective curricula. The structured approach to explaining key ideas, alongside the inclusion of many worked examples, helps a curriculum developer design engaging and well-paced content. This course, therefore, may prove useful for those who design curricula for physics.

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Biomechanics Specialist

A biomechanics specialist studies the mechanical aspects of living organisms, including their movement, forces, and physical structures. This course, centered around the concepts of mechanical energy and momentum, helps with the understanding of how forces and energy interact with biological systems. Concepts such as impulse, momentum, and potential and kinetic energy are all applicable to the analysis of human and animal movement. This course may be useful to anyone pursuing a career in biomechanics, where they will apply physics to biological problems.

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Research Scientist

A research scientist conducts experiments and analyzes data to investigate scientific phenomena and advance knowledge. This course, which deals with mechanical energy and momentum, provides a strong foundation in fundamental physics concepts. The course's emphasis on worked examples, and topics such as work, kinetic energy and potential energy, can be applied in a variety of research settings. This course may be useful for anyone interested in pursuing a research career in the sciences, especially those working with moving objects or systems.

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Materials Scientist

A materials scientist researches and develops new materials with specific properties, often for use in engineering or manufacturing. This course's coverage of energy and momentum, especially concepts like elastic potential energy and Hooke's law, helps a materials scientist understand how materials behave under various forces and conditions. This understanding is particularly relevant when working with materials that exhibit spring-like properties. A materials scientist may find this course useful in their research and design process.

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Science Writer

A science writer communicates scientific information to the general public or to specialized audiences through articles, books, and other media. This course, focused on the principles of mechanical energy and momentum, helps a science writer understand the fundamental concepts of physics. The course's clear definitions of topics, such as kinetic energy, potential energy, and conservation of momentum, makes it easier to express these ideas in easy to understand language. A science writer may find a course like this useful, as it helps to develop a strong base in physics.

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Civil Engineer

A civil engineer designs, plans, and oversees the construction of infrastructure projects, like bridges, roads, and buildings. This course, centered on mechanical energy and momentum, helps with an understanding of the forces and energy that act on structures and how they are affected by movement. Topics including work, power, and conservation of energy and momentum are all helpful for civil engineering design and analysis. A course like this will help a civil engineer working on large-scale projects.

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Data Analyst

A data analyst collects, processes, and analyzes data to help organizations make better decisions. This course, while primarily focused on mechanical energy and momentum, helps with an understanding of problem solving and logical thinking. The focus on problem solving through worked examples, and the logical progression of topics, are helpful in developing the type of thinking used in data analysis. Specifically, the use of defined variables and steps to produce a solution may prove useful. A data analyst may find this course a useful tool in building their analytical toolkit.

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Financial Analyst

A financial analyst examines financial data, provides financial forecasts, and makes recommendations to help businesses make sound financial decisions. While this course focuses on mechanical energy and momentum in physics, it helps with the development of logical reasoning and problem solving skills. The structured approach to examining physics problems, including breaking them into smaller parts, will be useful in a variety of fields. A financial analyst may find this course useful in building their analytical skills, even though it is not directly related to work in finance.

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Physics - Energy and Momentum - High School and AP Physics

What's inside

Learning objective

Syllabus

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Reviews summary

Clear explanations for physics energy and momentum

Activities

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