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Energy the ability (capacity) to do work Energy comes in many forms: mechanical, electrical, magnetic, solar, thermal, chemical, etc... thermal, chemical,

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Presentation on theme: "Energy the ability (capacity) to do work Energy comes in many forms: mechanical, electrical, magnetic, solar, thermal, chemical, etc... thermal, chemical,"— Presentation transcript:

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2 Energy the ability (capacity) to do work Energy comes in many forms: mechanical, electrical, magnetic, solar, thermal, chemical, etc... thermal, chemical, etc... The SI unit of energy is the Joule. Energy, like work, is a scalar, and May be positive or negative.

3 Kinetic Energy energy of motion All moving objects that have mass have kinetic energy. KE = 1/2 mv 2 m – mass of the object in kg m – mass of the object in kg v – speed of the object in m/s v – speed of the object in m/s KE – the kinetic energy in J

4 Work-Energy Theorem the net work done on an object is equal to its change in kinetic energy

5 Learn more about the Work-Energy Theorem herehere and here. here A net force causes an object to change its KE because a net force causes an object to accelerate, and acceleration means a change in velocity, and if velocity changes, KE changes.

6 Due to friction, energy is transferred both into the floor and into the tire when the bicycle skids to a stop. a.An infrared camera reveals the heated tire track on the floor. b.The warmth of the tire is also revealed. 9.6 Work-Energy Theorem

7 When a car brakes, the work is the friction force supplied by the brakes multiplied by the distance over which the friction force acts. A car moving at twice the speed of another has four times as much kinetic energy, and will require four times as much work to stop. The frictional force is nearly the same for both cars, so the faster one takes four times as much distance to stop. Kinetic energy depends on speed squared. 9.6 Work-Energy Theorem

8 Typical stopping distances for cars equipped with antilock brakes traveling at various speeds. The work done to stop the car is friction force × distance of slide. 9.6 Work-Energy Theorem

9 Kinetic energy often appears hidden in different forms of energy, such as heat, sound, light, and electricity. Random molecular motion is sensed as heat. Sound consists of molecules vibrating in rhythmic patterns. Light energy originates in the motion of electrons within atoms. Electrons in motion make electric currents. 9.6 Work-Energy Theorem

10 Potential Energy energy of position or condition gravitational potential energy PE g = mgh m – mass of object in kg m – mass of object in kg g – acceleration of gravity in m/s 2 g – acceleration of gravity in m/s 2 h – height of object, in m, h – height of object, in m, from some arbitrary reference point from some arbitrary reference point PE – gravitational potential energy in J

11 Law of Conservation of Energy “Energy can be neither created nor destroyed. It may only change forms.”  all types of energy before the event =  all types of energy after the event =  all types of energy after the event Examples: A dropped object loses gravitational PE as it gains KE. A dropped object loses gravitational PE as it gains KE. A block slides across the floor and comes to a stop. A block slides across the floor and comes to a stop. A compressed spring shoots a ball into the air. A compressed spring shoots a ball into the air.

12 Potential energy will become the kinetic energy of the arrow. 9.7 Conservation of Energy

13 The study of the forms of energy and the transformations from one form into another is the law of conservation of energy. For any system in its entirety—as simple as a swinging pendulum or as complex as an exploding galaxy—there is one quantity that does not change: energy. Energy may change form, but the total energy stays the same. 9.7 Conservation of Energy

14 Part of the PE of the wound spring changes into KE. The remaining PE goes into heating the machinery and the surroundings due to friction. No energy is lost. 9.7 Conservation of Energy

15 When the woman leaps from the burning building, the sum of her PE and KE remains constant at each successive position all the way down to the ground. 9.7 Conservation of Energy


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