Energy Test Review Potential Energy Kinetic Energy Velocity.
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Transcript of Energy Test Review Potential Energy Kinetic Energy Velocity.
![Page 1: Energy Test Review Potential Energy Kinetic Energy Velocity.](https://reader036.fdocuments.in/reader036/viewer/2022062304/56649e855503460f94b87688/html5/thumbnails/1.jpg)
Energy Test Review
Potential Energy
Kinetic Energy
Velocity
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1. In the diagram below, the baseball is being released by the
pitcher (position A), traveling toward the batter (position B), and stopping in the catcher’s glove (position C). At which
position would the baseball have the most kinetic energy?
Answer B, Why?In motion at this point
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2. When the rubber band was stretched, what type of energy did it contain?
Answer: Potential Energy
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3. As the rubber band was released and snapped
back, it changed to _______ energy.
Answer: Kinetic
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4. Turning on a light is what type of energy transformation?
Answer: electric to light
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5. What energy transformation occurs
when you strike a match on the rough strip of a
matchbook cover?
Answer: Mechanical to Heat (thermal)
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6. The burning match involves the
transformation of
Answer: chemical energy to light and heat (thermal) energy
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7. What type of energy is contained in the matches
within a matchbook?
Chemical potential energy
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8. Near earth’s surface, an object’s gravitational potential energy is
determined by the formula PE = mgh. What does the
g in the formula represent?
g =acceleration due to gravity or
10 m/s2
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9. An object’s gravitational kinetic energy is determined by the formula KE = ½ mv2, where v represents the velocity of the
object. If the velocity of a thrown object were to increase,
what would happen to the kinetic energy of the object? Increases
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10. Complete the following chart by putting in the energy needed (input) and the energy given off (output). Put your answers on
the answer document-not on the table .
Item Energy input Energy output
Toaster
Fan
Telephone
Gasoline Chainsaw
Natural gas stove
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In doing the following inclined plane experiment in “ideal conditions,” assume that friction from
the air, incline or floor is negligible. A stationary box at the top of a frictionless incline is released and is allowed to slide to the bottom. The figure
below illustrates the box in four positions labeled A through D as it is sliding from the
incline onto the level floor. As the box moves from the bottom of the incline to the floor,
assume that the box experiences no change in
speed, only a change in direction.
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11. At what time does the box have the
greatest kinetic energy?
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12. Where is the potential energy of the box greatest?
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A, Why?
14. When a space shuttle is launched, it continues to accelerate for several minutes. Which graph shows the kinetic energy of the space shuttle during the first few minutes of flight? (Launch time = 0)
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Calculation Problems
These problems must have work to show how you got the answers. Start with the formula then plug in
the values.
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A marble with a mass of 0.01 kg is released to travel through a track that was 2.00 meters long. It takes the marble 0.930 seconds to travel the length of the track.
What is the velocity?
Velocity = distance/time
What is distance?
2.00 m
What is time?
0.930 s
V = (2.00 m) /(0.930 s) = _____ m/s
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Calculate the approximate gravitational potential energy of a 70.0-kg skier
when he is at the top of a 30.0 meter hill.
PE = mass x g x height
Mass?
M = 70.0 kg
g = ?
Acceleration due to gravity = 10 m/s2
Height = ?
H = 30.0 m
PE = (70.0 kg) x (10 m/s2) x (30.0 m) = __ J
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Calculate the kinetic energy of a 0.50-kg
marble on a 3.0-m track if the velocity is 3.5 m/s.
KE = ½ mass x velocity 2
Mass = 0.50 kg
Velocity = 3.5 m/s
KE = ½ x (0.50 kg) x (3.5 m/s)2 = ____ J
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Short Answer
These should be answered with complete sentences.
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State the law of conservation of energy. Matter cannot be created nor destroyed; however, it can be transferred.
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State the using complete sentences three
disadvantages and three advantages to renewable
energy sources. You may pick a renewable energy
Solar
Wind
Water
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Draw a diagram showing the circuit of energy in a DC circuit powered by a 1.5 volt battery
and contains one switch and one resistor (light bulb). Show the
direction of the flow of the electrons. +
BA T T ER Y-
Light
switch
Flow of electrons is from the negative battery terminal through the light then switch then back to the positive end of the battery terminal.