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3 years ago

Which point has more gravitational potential energy?

Physics

1 answer:

Genrish500 [490]3 years ago

4 0

Point A has more gravitational potential because that energy is the energy stored in an object in this case the pencil and it is in a vertical position and it is off the ground cause it to have height. And the energy in the picture changed because the pencil will soon drop to the ground

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How do you find total displacement

Monica [59]

That's actually a lot easier than finding total <u><em>distance.</em></u>

To find displacement, you only have to know where the trip started from, and where it ended. It doesn't matter what route was followed to actually travel from the start to the finish. The displacement is the straight-line distance and direction between those two points.

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3 years ago

A car starts from rest at the top of a hill with 45 J of gravitational

kherson [118]

Answer:

<em>The car will be moving at 5.48 m/s at the bottom of the hill</em>

Explanation:

<u>Principle of Conservation of Mechanical Energy</u>

In the absence of friction, the total mechanical energy is conserved. That means that

$E_m=U+K$ is constant, being U the potential energy and K the kinetic energy

U=mgh

$\displaystyle K=\frac{mv^2}{2}$

When the car is at the top of the hill, its speed is 0, but its height h should be enough to produce the needed speed v down the hill.

The Kinetic energy is then, zero. When the car gets enough speed we assume it is achieved at ground level, so the potential energy runs out to zero but the Kinetic is at max. So the initial potential energy is transformed into kinetic energy.

We are given the initial potential energy U=45 J. It all is transformed to kinetic energy at the bottom of the hill, thus:

$\displaystyle \frac{mv^2}{2}=45$

Multiplying by 2:

$\displaystyle mv^2=90$

Dividing by m:

$\displaystyle v^2=\frac{90}{m}$

Taking square roots:

$\displaystyle v=\sqrt{\frac{90}{m}}$

$\displaystyle v=\sqrt{\frac{90}{3}}$

$v=\sqrt{30}$

v = 5.48 m/s

The car will be moving at 5.48 m/s at the bottom of the hill

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3 years ago

Which statements accurately describe matter

vladimir1956 [14]

<h3>I hope it is helpful for you ...</h3>

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4 years ago

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Nostrana [21]

Answer:

I think 18 not entirely sure though

Explanation:

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3 years ago

Read 2 more answers

A point charge is released from rest in a region containing an electric field. The charge will start to move

kotykmax [81]

Answer:

b) in a direction that makes its potential energy decrease.

Explanation:

As the electric field has the direction that would take a positive test charge under its sole influence, the positive test charge, will have an increase in its kinetic energy.
Due to the conservation of energy, in absence of non-conservative forces, this increment must be equal and opposite to the change in electric potential energy, which will be always negative, independent of the sign of the charge.

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3 years ago