pritty quick
It is depended on the shape of the wheels to determine how much friction is applied.
Toy cars can be push along or self powered. If self powered that may be clockwork or battery powered electrically driven. All cars move forwards or backwards due to some force. Clockwork cars have the same wind up and release that any windup clock has. Battery powered cars use a small battery to power an electric motor to drive the wheels.
Glue a balloon to a little toy car. Blow up the balloon, without tying the end. Set the car with balloon on the ground and watch the car be propelled by the air coming out of the balloon for about 15 feet.
It depends on the type of toy car. In a simple wind-up version, mechanical energy, of a spring under tension, is converted to kinetic energy and noise and a small amount of heat. In battery powered cars, chemical energy from the batteries is converted to electricity which in turn is converted to kinetic energy and waste.
I'll accept that. What's your question ?
yes at toy world
welll that all depends on what kind of toy car you have ..... hot wheel, R/C car, gas powered, electric, wind up..
your mother, trebek.
a battery and a toy car..........................
Read the directions
Only toy cars.
use an old solar and solar battery from a calculator and find a little electric motor. find a belt and a couple of pulleys on a wood frame with wheels. after some tinkering you should figure it out
It is a toy car built from Lego's and it is balloon powered.
Two axles and 4 wheels on a board car-like, pump up water rocket attached to the board lengthwise. You have a water powered toy car
With great difficulty.
A real car weighs more and can move on a high powered engine.
This is because the work done in order to move the toy car is smaller than that of the car with the added mass, and so the battery will have to work harder to move the toy car with the mass added