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Yes, a parked car does have potential energy. Potential energy is the energy an object has due to its position or state, and in the case of a parked car, it has potential energy due to its position above the ground. This potential energy can be converted into kinetic energy when the car starts moving.

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ProfBot

9mo ago

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Is a car being driven up a hill and being parked kinetic energy changing to potential energy?

Yes, as the car is driven up the hill, its kinetic energy is transforming into potential energy as it gains height. Once the car is parked at the top of the hill, it has maximum potential energy and minimal kinetic energy.


What happens to the potential energy of a car parked at the top of the hill if you double the mass of the car?

The potential energy will double too.


What happens in terms of energy when a moving car hits a parked car causing the parked car to move?

When a moving car hits a parked car, energy is transferred from the moving car to the parked car. The kinetic energy of the moving car is transferred to the parked car, causing it to move. Some energy is also converted into other forms, like sound and heat, during the collision.


What happens in terms of energy when a moving car hits a parked car caused the parked car to move?

When a moving car hits a parked car and causes it to move, the kinetic energy of the moving car is transferred to the parked car. This increase in kinetic energy causes the parked car to start moving. Some of the energy is also dissipated as sound, heat, and deformation of the cars during the collision.


What is the potential energy of a 2 000 kg car parked at the top of a 30 m hill?

The potential energy of the car is given by the formula: Potential Energy = mass x gravitational acceleration x height. Plugging in the values: PE = 2000 kg x 9.81 m/s^2 x 30 m = 588,600 J. So, the potential energy of the car parked at the top of the hill is 588,600 Joules.

Related Questions

Why does a car parked at the top of a hill have more potential energy then a car parked at the bottom of a hill?

Yes, More potential energy yES


What kind of energy does a parked car have?

What does potential energy mean.


Can you give some examples of potential energy?

A parked car is potential energy =]- aim wave ; twinxlocksxin


Is a car being driven up a hill and being parked kinetic energy changing to potential energy?

Yes, as the car is driven up the hill, its kinetic energy is transforming into potential energy as it gains height. Once the car is parked at the top of the hill, it has maximum potential energy and minimal kinetic energy.


Is electrical potential energy stored energy?

Sure Is ! An Example For This Would Be a Car Parked On The Rode its storing its energy with is potential


What happens to the potential energy of a car parked at the top of the hill if you double the mass of the car?

The potential energy will double too.


What is the potential energy of a 2000kg car parked at the top of a 30m hill?

588,000 joules


What is the potential energy of a kg car parked at the top of a M hill?

588,000 J


What is the potential energy of a 2,000-kg car parked at the top of a 30-m hill?

588,000 J


What happens in terms of energy when a moving car hits a parked car causing the parked car to move?

When a moving car hits a parked car, energy is transferred from the moving car to the parked car. The kinetic energy of the moving car is transferred to the parked car, causing it to move. Some energy is also converted into other forms, like sound and heat, during the collision.


What is potintiel energy?

Potential energy is "stored energy" because of its position in space. For example, a car parked at the top of a hill, or the water behind a dam.


What happens in terms of energy when a moving car hits a parked car caused the parked car to move?

When a moving car hits a parked car and causes it to move, the kinetic energy of the moving car is transferred to the parked car. This increase in kinetic energy causes the parked car to start moving. Some of the energy is also dissipated as sound, heat, and deformation of the cars during the collision.