Students will learn that work is simply the transfer of energy into or out of a system. Students will learn how to calculate the work done and how to incorporate it into energy conservation.
Work is defined in this video, and an example is used to show how to calculate it.
Solving for the total work done on an object using the formula W = âKE
Solving for distance orforce from the total work done on an object using W = Fd and W = âKE
Calculate work using equation for work. Includes basic trigonometry.
A list of student-submitted discussion questions for Work.
This is an activity for students to complete before and after reading the Work Concept.
Learn about the world record deadlift and how physics determines how much work was done.
Discover the importance of work and power in becoming the worlds strongest man.
This study guide provides an overview of potential energy, kinetic energy, and energy conservation, as well as energy diagrams, work, conservative force, and non-conservative force.
These flashcards help you study important terms and vocabulary from Work.