Two similar sized stones one heavy and one light dropped from the same height into a pond explain why the impact of the heavy stone would produce with a higher amplitude than the impact of the light stone would

Answers

Answer 1

Answer:

The impact of the heavy stone would produce with a higher amplitude than the impact of the light stone would because of having high potential energy.

What is gravitational potential energy?

An object's gravitational potential energy is described as the energy it would have had if it had defied gravity and risen to a certain height. Due to having only magnitude and no direction, it is a scalar quantity with SI unit of Joule.

Let, the mass of the heavy stone is m₁ and mass of the light stone is m₂ (m₁ > m₂). Both of them are dropped from same height h.

Then, gravitational potential energy of heavy stone is, V₁ = m₁gh.

And, gravitational potential energy of lighter stone is, V₂ = m₂gh.

Where, g = acceleration due to gravity.

Now, as m₁ > m₂; V₁> V₂

Due to having more potential energy, when the stones are dropped into a pond from same height, the heavy stone would produce with a higher amplitude than the impact of the light stone would.

Learn more about potential energy here:

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Answer 2

Answer: in energy point of view, the larger stone had more potential energy before dropping. impacting the water, the larger one, having more kinetic energy which changed from potential energy, tranfered energy to the water and formed wave. the amplitude of the wave indicate the energy of the wave. more energy more amplitude.

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Which temperature corresponds to standard temperature as 0 degrees Celsius? a. 273 K b. 100 K c. 32 K d. 0 K

Answers

Answer:

A.) 273 K

Explanation:

Standard temperature, often referred to as standard room temperature, is defined as 0 degrees Celsius (0°C). To convert this temperature to Kelvin (K), you can use the following formula:

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a. 273 K

iffany is told that shape A is bigger than Shape B and that Shape B is bigger than shape C. She is then asked about the difference between shape A and Shape C. If Tiffany is in the concrete operational stage, her answer will most likely be: a) "A is bigger than B, but I don't know about C." b) "A is bigger than B, and C is bigger than B, so A is bigger than C." c) "I need a ruler to measure them." d) "I can't tell the difference."

Answers

If Tiffany is in the concrete operational stage, her answer will most likely be: a) "A is bigger than B, but I don't know about C.”

What kind of energy does a rubber band have when it is stretched? a. elastic potential energy

b. gravitational potential energy

c. kinetic energy

d. chemical energy

Answers

Elastic potential energy. When you stretch a rubber band it has the "potential" to do work, to fly in a given direction. In doing so it changes it's elastic potential energy to kinetic energy.

Answer:

elastic potential energy

Explanation:

Electromagnetic induction occurs only when the current in the primary coil is constant. true or false

Answers

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A turntable is designed to acquire an angular velocity of 32.4 rev/s in 0.5 s, starting from rest.Find the average angular acceleration of the turntable during the 0.5 s period.
Answer in units of rad/s2

Answers

Well, the acceleration is the difference of speeds divided by the time period. $(32.4)/(0.5)=64.8rev/s^2$ .
One rev/s is $2\pi rad/s^2$ , so our final result is $64.8*2\pi=407.15rad/s^2$ .

Answer:

not sure lol

Explanation:

ummmmmm look it up on peersanswer.com

When a charged body is brought close to an uncharged body without touching it, a(n) _______________ charge may result on the uncharged body. When a charged body is brought into contact with an uncharged body and then is removed, a(n) _______________ charge may result on the uncharged body.

Answers

Explanation:

When a charged object is brought near a neutral object without touching each other a charge arises on the neutral object. This method of charge development is known as induced charge.

On the other hand, when a charged object touches a neutral object and then the charged object is removed will lead to the development of a charge on the neutral object. This charge is known as residual charge.

Thus, we can conclude that when a charged body is brought close to an uncharged body without touching it, an induced charge may result on the uncharged body. When a charged body is brought into contact with an uncharged body and then is removed, a residual charge may result on the uncharged body.

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