![Physics 30 - Newton's Second Law](https://img.oercommons.org/160x134/microsite-sws-prod/media/courseware/lesson/image/physics_30_xkFxCFb.jpg)
- Newton's Second Law- Weight and Mass- Newton's Second Law Demo
- Subject:
- Physics
- Author:
- Distance Learning Centre
- Date Added:
- 04/11/2018
- Newton's Second Law- Weight and Mass- Newton's Second Law Demo
- Intro to Projectile Motion- Equations for Projectile Motion- Kinematic Equations for Projectile Motion- Solving Projectile Motion Problems- Examples
- Projectile motion- Acceleration due to gravity- Examples
- Relative Velocities- Relative Velocity Notation- Examples
- Slanted Friction- Examples
- Intro to Friction- Static and Kinetic Friction- Examples
Introductory lesson and worksheets exploring Physics 30.
A compilation of lesson plans, worksheets and answer keys covering Unit 1 of Physics 30.
Lessons, worksheets and keys for Physics 30: Unit 2 - Dynamics.
Lesson plans, worksheets and answer keys for Physics 30: Unit 3 - Circular Motion and Gravitation.
Lessons, worksheets and keys for Physics 30: Unit 4 - The Conservation Laws.
Lessons, worksheets and keys covering Physics 30: Unit 5 - Electric and Magnetic Fields.
Case studies and lessons covering: Relativity, Radioactivity, Quantum Mechanics and Nuclear Physics.
This Physics video explains the Application of Pascal's Law in Hydraulics.
A wealth of resources for teaching and learning about physics!
Tutorials, interactives, videos, multimedia info, concept builders, concept checkers, question bank HELP and more!
This 10-minute video lesson looks at Newton's First Law (Galileo's Law of Inertia).
TED Studies, created in collaboration with Wiley, are curated video collections 逖 supplemented by rich educational materials 逖 for students, educators and self-guided learners. The Edge of Knowledge explores the fascinating implications of some of science's most perplexing theories: quantum mechanics, general relativity and attempts to unify them. Learn how scientists combine sophisticated mathematics and ambitious experimentation like CERN逭s Large Hadron Collider to advance our understanding of the universe.
In this activity, students will learn about Newton's 2nd Law of Motion. They will learn that the force required to move a book is proportional to the weight of the book. Engineers use this relationship to determine how much force they need to move an airplane.
cK-12 Exploration Series offers Physics and Chemistry simulations to support visualization of abstract concepts. Teachers would need to create an account.
Students explore the physics utilized by engineers in designing today's roller coasters, including potential and kinetic energy, friction, and gravity. First, students learn that all true roller coasters are completely driven by the force of gravity and that the conversion between potential and kinetic energy is essential to all roller coasters. Second, they also consider the role of friction in slowing down cars in roller coasters. Finally, they examine the acceleration of roller coaster cars as they travel around the track. During the associated activity, the students design, build, and analyze a roller coaster for marbles out of foam tubing.