The potential energy of the gasoline is converted to heat and kinetic energy.
When a car drives down a street, chemical energy from the fuel is converted into mechanical energy through the engine. This mechanical energy powers the car's movement, while some of it is transformed into thermal energy due to friction in the engine and brakes. Additionally, some energy is converted into sound energy as the car moves and interacts with the environment.
When driving down a street, the energy from the fuel in the vehicle's engine is converted into kinetic energy as the car moves forward. As the vehicle's tires grip the road, friction converts some of this kinetic energy into heat energy. Additionally, the vehicle's battery recharges through the alternator, converting some kinetic energy from the engine into electrical energy to power various components.
Potential energy is stored in the gasoline, the energy is then converted to heat, then to the kinetic energy of the car.
Potential energy is stored in the gasoline, the energy is then converted to heat, then to the kinetic energy of the car.
Potential energy is stored in the gasoline, the energy is then converted to heat, then to the kinetic energy of the car.
Potential energy is stored in the gasoline, the energy is then converted to heat, then to the kinetic energy of the car.
Energy stored in gasoline is converted to heat, then to the kinetic energy of the car.
The potential energy of the gasoline is converted to heat and kinetic energy.By: Dakota Landon Dillashaw also torque or torsional energy is multiplied and divided by transmissions and differentials then transmitted by tires to the road only to be once again divided by traction and friction
A car that drives on 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.
there are lots of street parties happening .