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Chapter 9.3 Mechanical Energy.

Published byΑφροδίσιος Δράκος Modified over 5 years ago

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Presentation on theme: "Chapter 9.3 Mechanical Energy."— Presentation transcript:

1 Chapter 9.3 Mechanical Energy

2 9.3 Mechanical Energy The two forms of mechanical energy are kinetic energy and potential energy.

3 9.3 Mechanical Energy Mechanical energy is the energy due to the position of something or the movement of something.

4 Mechanical Energy Total mechanical energy = kinetic energy + potential energy TME = KE + PE 100 J = 0 J J At rest, no KE, no motion 100 J = 50 J + 50 J In motion, 50 J of PE transferred, object now has 50 J of KE. 100 J = 100 J + 0 J In motion, no potential energy (100 J transferred to KE) In each case, the total mechanical energy is the same. As the PE decreases, the KE increases.

5 Mechanical Energy = PE + KE
100 J = 100 J PE J KE 100 J = 50 J PE J KE 100 J = 0 J PE J KE

6 Indicate where: KE is at a minimum and maximum PE is at a minimum and maximum The speed is greatest The speed is least

7 KE min KE min PE max PE max V = 0 m/s V = 0 m/s transformation of PE to KE (release) transformation of KE to PE (storage) KE max PE min V = maximum

8 9.3 Mechanical Energy What are the two forms of mechanical energy?

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