About This Chapter
Who's it for?
Anyone who needs help learning or mastering high school physics material will benefit from taking this course. There is no faster or easier way to learn about high school physics. Among those who would benefit are:
- Students who have fallen behind in understanding the relationship between force, work, and power or the differences between potential, kinetic, and mechanical energy
- Students who struggle with learning disabilities or learning differences, including autism and ADHD
- Students who prefer multiple ways of learning science (visual or auditory)
- Students who have missed class time and need to catch up
- Students who need an efficient way to learn about work, energy, and power
- Students who struggle to understand their teachers
- Students who attend schools without extra science learning resources
How it works:
- Find videos in our course that cover what you need to learn or review.
- Press play and watch the video lesson.
- Refer to the video transcripts to reinforce your learning.
- Test your understanding of each lesson with short quizzes.
- Verify you're ready by completing the Work, Energy, & Power in Physics chapter exam.
Why it works:
- Study Efficiently: Skip what you know, review what you don't.
- Retain What You Learn: Engaging animations and real-life examples make topics easy to grasp.
- Be Ready on Test Day: Use the Work, Energy, & Power in Physics chapter exam to be prepared.
- Get Extra Support: Ask our subject-matter experts any work, energy, and power question. They're here to help!
- Study With Flexibility: Watch videos on any web-ready device.
Students will review:
This chapter helps students review the concepts in a work, energy, and power unit of a standard high school physics course. Topics covered include:
- Characteristics of work
- Work by a variable force
- Kinetic and potential energy
- The work-energy theorem
- Mechanical energy
- Mechanical energy conserved
- Pulley mechanics
- Methods for calculating power
1. Work: Definition, Characteristics, and Examples
Pushing a wall all day may feel like work, but unless you get that wall moving you're not doing any work according to the rules of physics. In this video lesson, you'll learn how work is defined as well as how to calculate the amount of work done on an object.
2. Work Done by a Variable Force
Doing work on an object is a simple concept: we apply a certain force over a certain distance. But in real life, that force is rarely constant. Therefore, we need to understand variable forces and be able to calculate them accurately.
3. What is Energy? - Definition and Significance in Nature
This lesson describes the nature of energy and how it is transferred from one source into another. Additionally, it will describe the significance of energy in natural systems.
4. Kinetic Energy to Potential Energy: Relationship in Different Energy Types
This video defines and describes kinetic and potential energy. You'll learn how different types of energy can be classified as potential and kinetic. You'll also find out how kinetic and potential energy are transformed.
5. Work-Energy Theorem: Definition and Application
Work and energy are closely related in physics. In this lesson, you'll learn what that relationship is as well as how we can apply it to various situations.
6. What is Mechanical Energy? - Definition & Examples
In physics, energy is how work gets done. This video describes one important type of energy, mechanical energy, and provides examples of both kinetic and potential mechanical energy.
7. Pulleys: Basic Mechanics
Like other simple machines, pulleys can help us lift and move heavy loads with less effort. In this video lesson, you'll learn how pulleys do this as well as how this is possible while still obeying the law of conservation of energy.
8. Conservation of Mechanical Energy
Energy comes in many forms and for any system can never be created or destroyed. This holds true for mechanical energy, which also obeys this law of conservation of energy. In this video lesson, you'll explore how mechanical energy is converted or transferred between forms and objects.
9. Power: Definition and Mathematics
Work involves moving an object with a force, but power tells us how quickly that work is done. In this lesson, you will learn about how power depends on both work and time as well as see examples of how to calculate power.
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Other chapters within the High School Physics: Help and Review course
- Introduction to Physics: Help and Review
- Vectors in Physics: Help and Review
- Kinematics in Physics: Help and Review
- Newton's Laws in Physics: Help and Review
- Linear Momentum in Physics: Help and Review
- Rotational Motion in Physics: Help and Review
- Circular Motion and Gravitation in Physics: Help and Review
- Oscillations in Physics: Help and Review
- Electrical Forces and Fields in Physics: Help and Review
- Potential and Capacitance in Physics: Help and Review
- Direct Current Circuits in Physics: Help and Review
- Magnetism in Physics: Help and Review
- Waves, Sound, and Light: Help and Review
- Atomic and Nuclear Physics: Help and Review
- Fluid Mechanics in Physics: Help and Review
- Thermal Physics & Thermodynamics: Help and Review
- Relativity & Quantum Theory in Modern Physics: Help and Review
- The Universe in Physics: Help and Review
- Physics Lab Experiments: Motion: Help and Review
- Physics Lab Experiments: Matter & Light: Help and Review
- Physics Lab Experiments: Electricity: Help and Review