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8.2 Conservation of Energy

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Presentation on theme: "8.2 Conservation of Energy"— Presentation transcript:

1 8.2 Conservation of Energy
How can you find an object’s mechanical energy? What is the Law of Conservation of Energy?

2 Energy associated with the motion, position, &/or shape of an object
Mechanical Energy Energy associated with the motion, position, &/or shape of an object

3 The ball’s mechanical energy
TRUE True or False? The ball’s mechanical energy does not change from Point A to Point B.

4 The ball’s Mechanical Energy does not change, BUT…
22 J The ball’s Mechanical Energy does not change, BUT… the amount of Potential Energy & Kinetic Energy changes. 22 J Why does the ball’s gravitational PE increase from points A to B? The ball gets higher!

5 How can you tell that the ball’s kinetic energy is increasing?
The ball is covering more distance in equal time intervals, so its speed must be increasing.

6 Energy Transformation
C. A change of energy from one form to another. Evaluate the pendulum and ENERGY TRANSFORMATION at positions A,B & C (p. 298) B.

7 Elastic Potential energy Kinetic energy Gravitational Potential energy Kinetic energy From his running.

8 motion position shape Its kinetic energy is zero because mechanical energy equals potential energy plus kinetic energy. 5.2 J J = 8.7 J adding together the object’s kinetic energy and potential energy.

9 Law of Conservation of energy
Energy cannot be created or destroyed, only transferred

10 Conserving Energy While You Ride (p.300):
Transformations between potential and kinetic energy occur during a roller coaster ride. How much potential and kinetic energy does the coaster have at each point?

11 Thermal Energy (or Heat Energy)
The total kinetic & potential energy of the PARTICLES that make an object

12 Whenever a moving object experiences friction, some of its kinetic energy is transformed into thermal energy

13 The total amount of energy before
a transformation is the same as after a transformation. cannot be created or destroyed.

14 Create friction & thermal energy
1. Put your hands together. 2. Vigorously rub, & feel the burn Friction causes some mechanical energy (ME) to be converted to thermal energy (TE).

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