Potential energy as a function of position Chart Area -8 Position (meters) An object was subject to a conservative force associated with the potential energy function shown above. There were no other significant forces acting on the object. The object was released at the position x = 6.0 meters. Which of the following is closest to the amount of kinetic energy the object needed at x = 6.0 meters if it was to reach the point x = 4.0 meters without assistance (only under the influence of the conservative force)? Assume this object is large enough that quantum mechanical effects such as tunneling are not possible. O 2 joules O 3 joules O 0.5 joules O 1 joule O 2.5 joules O 4 joules Potential Energy (joules)

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Chapter1: Units, Trigonometry. And Vectors
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Potential energy as a function of position
Chart Area
4
Position (meters)
An object was subject to a conservative force associated with the
potential energy function shown above. There were no other
significant forces acting on the object. The object was released at the
position x = 6.0 meters. Which of the following is closest to the
amount of kinetic energy the object needed at x = 6.0 meters if it was
to reach the point x = 4.0 meters without assistance (only under the
influence of the conservative force)? Assume this object is large
enough that quantum mechanical effects such as tunneling are not
possible.
O 2 joules
O 3 joules
O 0.5 joules
O 1 joule
O 2.5 joules
O 4 joules
Potential Energy (joules)
Transcribed Image Text:Potential energy as a function of position Chart Area 4 Position (meters) An object was subject to a conservative force associated with the potential energy function shown above. There were no other significant forces acting on the object. The object was released at the position x = 6.0 meters. Which of the following is closest to the amount of kinetic energy the object needed at x = 6.0 meters if it was to reach the point x = 4.0 meters without assistance (only under the influence of the conservative force)? Assume this object is large enough that quantum mechanical effects such as tunneling are not possible. O 2 joules O 3 joules O 0.5 joules O 1 joule O 2.5 joules O 4 joules Potential Energy (joules)
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