The energy stage of the diver's motion is represented by:
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Question 2
2.
The energy stage of the diver's motion is represented by:
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Question 3
3.
More Mass the more kinetic energy.
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Question 4
4.
Energy due to motion is called Kinetic Energy.
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Question 5
5.
Gravitational Energy the energy an object has due to its position above earth.
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Question 6
6.
Kinetic or Potential Energy?
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Question 7
7.
Which of these vehicles has the MOST KINETIC ENERGY?
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Question 8
8.
According to the graph, which mass has the GREATEST Kinetic Energy?
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Question 9
9.
According to the graph, which mass has the LOWEST Kinetic Energy?
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Question 10
10.
Which two factors could be adjusted on the diver to change the amount of POTENTIAL ENERGY he has?
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Question 11
11.
Five bikers are all smoothly riding at 1m/s on a mountain trail. This coordinate represents the location where the mass and KE meet on the graph for which biker? The masses of the bikers are 40Kg, 60Kg, 80Kg, 100 Kg, and 120Kg.
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Question 12
12.
Five bikers are all smoothly riding at 1m/s on a mountain trail. This coordinate represents the location where the mass and KE meet on the graph for which biker? The masses of the bikers are 40Kg, 60Kg, 80Kg, 100 Kg, and 120Kg.
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Question 13
13.
Five bikers are all smoothly riding at 1m/s on a mountain trail. This coordinate represents the location where the mass and KE meet on the graph for which biker? The masses of the bikers are 40Kg, 60Kg, 80Kg, 100 Kg, and 120Kg.
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Question 14
14.
Gravitational Potential Energy is the weight of an object multiplied by the height at which it is from the ground. The weight in the image has a GPE of:
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Question 15
15.
Gravitational Potential Energy is the weight of an object multiplied by the height at which it is from the ground. The weight in the image has a GPE of:
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Question 16
16.
Gravitational Potential Energy is the weight of an object multiplied by the height at which it is from the ground. The weight in the image has a GPE of:
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Question 17
17.
Here the mass of each object remains the same. If the mass doesn't change for either object, the Gravitational Force will remain the same between these two objects.
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Question 18
18.
Here the distance between each object remains the same. If the radius doesn't change between the two objects, the Gravitational Force will remain the same between these two objects.
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Question 19
19.
What would happen to the Gravitational Force if one of the objects increases to twice its mass?
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Question 20
20.
What would happen to the Gravitational Force if the distance between the objects doubled?
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Question 21
21.
What would happen to the Gravitational Force if both objects increased to twice their mass?
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Question 22
22.
What would happen to the Gravitational Force if the distance between the objects came down to half the original distance?
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Question 23
23.
What would happen to the Gravitational Force if one of the objects increases to three times its mass?
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Question 24
24.
What would happen to the Gravitational Force if both the objects got twice as massive and the distance between them increased to twice as far?
