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A 14.0 kg cart is coasting down a street at a steady speed of 7.00 ms What is the kinetic energy of the cart?
Wiki User
∙ 13y ago
Kinetic Energy = (1/2) x (M) x (V2) = (1/2) x (14) x (49) = 7 x 49 =
343 joules
Wiki User
∙ 13y ago
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A 14 kg cart is coasting down a street at a steady speed of 7 ms what is the kinetic energy of the cart?
Kinetic Energy = (1/2) x (M) x (V2) = (1/2) x (14) x (49) = 7 x 49 =343 joules
Which describes the energy conversions used to make a car down the street?
Assuming it just rolls down a slope, without the engines working: gravitational potential energy will be converted to kinetic energy. The kinetic energy will eventually be converted to heat energy.
Which of these scenarios involving a car is an example of kinetic energy?
Moved on Flat Street
Which examples illustrates an object with kinetic energy?
A skateboard rolling across the street A hockey puck sliding across the ice
Car drives down a street what energy conversions are happening?
The potential energy of the gasoline is converted to heat and kinetic energy.
How do energy conversions make a car go down street?
Potential energy is stored in the gasoline, the energy is then converted to heat, then to the kinetic energy of the car.
How do energy conversions make car go down the street?
Potential energy is stored in the gasoline, the energy is then converted to heat, then to the kinetic energy of the car.
How do energy conversions make a car go down the street?
Potential energy is stored in the gasoline, the energy is then converted to heat, then to the kinetic energy of the car.
How do conversions make a car go down a street?
Potential energy is stored in the gasoline, the energy is then converted to heat, then to the kinetic energy of the car.
Which describes the energy convection used to make a car down the street?
Energy stored in gasoline is converted to heat, then to the kinetic energy of the car.
Which describe the energy conversion used to make a car go down the street?
Assuming it just rolls down a slope, without the engines working: gravitational potential energy will be converted to kinetic energy. The kinetic energy will eventually be converted to heat energy.
Which describes the energy conversation used to make a car go down the street?
Assuming it just rolls down a slope, without the engines working: gravitational potential energy will be converted to kinetic energy. The kinetic energy will eventually be converted to heat energy.
