Gravity affects a car on a slope the same as it affects a car on a horizontal surface. The weight (force) of the car is the same whether it's on a slope or a horizontal surface. Weight is equal to the mass of the car times the acceleration due to gravity (9.8m/s2).
You press the gas pedal, creating an unbalanced force, and the car undergoes a positive acceleration. You press the brake pedal, creating an unbalanced force, and the car undergoes a negative acceleration. You turn the steering wheel, creating an unbalanced force, and the car changes direction, which is also acceleration. Newton's first law explains why motion changes, or accelerates, which is by means of an unbalanced force.
If we did not have gravity the car wouls of been in the air
No. As soon as a car begins to move forward, it immediately
loses contact with the ground, and floats up into the air.
the gravitational pull effects all things on earth even cars
The heavier a car is, the harder it is to stop it.
It keeps it on the ground
Gravity.
when you go up and down inclines
Somebody pushing the car; friction slowing down the car; gravity acting on the car (this is especially relevant if the car is going up or down a slope); the engine pushing the car forwards.
In that case, the car will slow down due both to gravity pulling it backward, and to friction forces.
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Gravity makes higher and lower water flow which makes it deaper or shallower.
the steeper the slope, the faster the velocity because the pull of gravity will be applied more since the resistance will be lower.
It keeps it on the ground
Gravity.
It creates a creep and a slump, causing trees, bushes, ect. to curve/slant.
Arrow dynamics
Gravity.
when you go up and down inclines
Without gravity, and friction the race car would be flying everywhere and would slide off of the track.
Somebody pushing the car; friction slowing down the car; gravity acting on the car (this is especially relevant if the car is going up or down a slope); the engine pushing the car forwards.
With slope, there are four different kinds of slope: positive, negative, zero, and undefined. Positive slope is an upward climb, so the car would exert more energy, time, and gas trying to ascend. On the other hand, negative slope travels downward, so a car could use the same amount of energy as the car above and go farther. Zero slope is a straight horizontal line, so the distance the car would travel would be around an average between the distance travelled on the positive slope and the negative slope. Undefined slope is a straight vertical line, so it is nearly impossible for a car to gain any distance without extreme momentum.