An electric motor, a solenoid, an electromagnet, an electric clock and much more!
Car's normally get their energy from gasoline, or a similar fuel - which stores the energy as chemical energy.
No. A real car IS not kinetic energy, but it HAS kinetic energy.No. A real car IS not kinetic energy, but it HAS kinetic energy.No. A real car IS not kinetic energy, but it HAS kinetic energy.No. A real car IS not kinetic energy, but it HAS kinetic energy.
It varies from zero (idling) to a max of 38 % ... but the average is about 20 %.
20 m/s
An electric motor, a solenoid, an electromagnet, an electric clock and much more!
Barely itself.
1.21 gigawatts.
Because your batery does not have much energy to make the car roar to life.
35%
It would depend on the batteries on board.
The formula for kinetic energy is: KE =( mv2)/2 m= mass (not weight) v= velocity A more massive car will have more kinetic energy than a lighter one traveling at the same speed. A faster moving car will have much more kinetic energy than an identical car moving slower.
Car's normally get their energy from gasoline, or a similar fuel - which stores the energy as chemical energy.
the impacts of using a car is that you can move around much more efficiently than walking or riding and doesn't use up much energy:)
No. A real car IS not kinetic energy, but it HAS kinetic energy.No. A real car IS not kinetic energy, but it HAS kinetic energy.No. A real car IS not kinetic energy, but it HAS kinetic energy.No. A real car IS not kinetic energy, but it HAS kinetic energy.
It is to conserve energy. If they stay paced, they don't lose as much energy. Like when your car is low on gas. ^_^
an hydro power car saves aboout 49% of energy