make a ramp out of cardboard or put a meter stick on a few books
The distance a toy car can travel on a ramp depends on factors like the incline of the ramp, the initial velocity of the car, and any friction present. In general, a toy car on a ramp can roll for a distance equivalent to the length of the ramp if there is no significant friction or obstacles in its path.
it all depends on the height of either the ramp or how far up the ramp the toy car rolls from
A plastic toy car
gravity pulls it down....but of course inertia
You can stop a toy car from going down a ramp by placing a barrier at the end of the ramp, such as a wall or a book. Another option is to alter the slope of the ramp to make it less steep so that the car doesn't pick up enough speed to continue rolling. Additionally, you can manually hold the car in place at the top of the ramp.
One factor is the height of the ramp. The higher the height of the ramp the further the car travels. Another factor is the surface of the ramp. With a rough surface on the ramp e.g sand paper the car travels a short distance. With a lubricated surface on the ramp e.g Vaseline the car will travel a very long distance.
The height of the ramp is an independent variable, as it is manipulated by the researcher. The mass of the toy car is a dependent variable, as it is measured based on the height of the ramp.
If the toy car's ramp is on 45 degrees and if the toy car is put on some weight, the toy car will go faster because it goes faster, which makes the car go further.
That depends on the toy car's weight, size, and the length and height of the ramp. Use science and math to figure this out.
the steeper the ramp, the farther the car goes. if your ramp is flatter, it won't go as far.
The height of the ramp and the mass of the toy car are both independent variables in an experiment. The height of the ramp is the variable that is adjusted or manipulated by the experimenter, while the mass of the toy car is another factor being tested to see how it affects the outcome of the experiment.
-- Steeper ramp.-- Lower friction in the wheel and axle bearings of the car.-- Better aerodynamic streamlining of the shape of the car.-- Make the car of iron and conceal a large magnet at the bottom of the ramp.