0
What else can I help you with?
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 form of energy does a car sitting at the top of a hill have?
A car sitting at the top of a hill possesses gravitational potential energy. This energy is due to its elevated position relative to the ground, which gives it the potential to convert this stored energy into kinetic energy if it rolls down the hill. The amount of gravitational potential energy depends on the car's mass and the height of the hill.
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.
Where is potential energy stored within car at rest at top of a hill?
Potential energy is stored in the car at the top of the hill due to its position relative to the ground. As the car is raised to a higher elevation, it gains gravitational potential energy, which can be converted into kinetic energy when the car moves downhill.
3 What type of energy is gained as the roller coaster car goes up to the top of the first hill?
Potential energy is gained as the roller coaster car goes up to the top of the first hill. This type of energy is due to the car's height above the ground and its potential to do work as it moves downhill.
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 are the physics principles involved when a car goes over a hill?
When a car goes over a hill, the physics principles involved include potential energy, kinetic energy, and centripetal force. As the car goes up the hill, potential energy increases due to its height. At the top of the hill, this potential energy is converted into kinetic energy as the car accelerates downward. Centripetal force keeps the car moving in a curved path as it goes over the hill.
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.
How much energy did Car 1 lose from the top to the bottom of the hill?
The energy lost by Car 1 is equal to its initial potential energy at the top of the hill minus its final potential energy at the bottom. This can be calculated using the formula: Energy lost = mgh_top - mgh_bottom, where m is the mass of the car, g is the acceleration due to gravity, and h_top and h_bottom are the heights of the top and bottom of the hill, respectively.
What point in the ride is the kinetic energy of the car zero?
The kinetic energy of the car becomes zero when the car halts. If it halts on top of a hill, the energy changes to potential energy.
3 examples of gravitational potential energy?
A book on a shelf has gravitational potential energy because of its position relative to the ground. Water stored in a dam has gravitational potential energy due to its elevated position. A rock held at the top of a cliff has gravitational potential energy that can be converted to kinetic energy when it falls.
