If you're moving toward a relatively large mass ... large enough so that
gravitational forces between you and any other mass are insignificant by
comparison ... then the forces of gravity increase your speed toward it.
If you're moving away from a relatively large mass ... large enough so that
gravitational forces between you and any other mass are insignificant by
comparison ... then the forces of gravity decrease your speed away from it.
Gravity affects the speed of a toy car by pulling it downward, which can increase its acceleration when moving downhill and decrease its acceleration when moving uphill. The force of gravity can also affect the traction of the tires on different surfaces, influencing the overall speed and performance of the toy car.
Gravity does not effect speed of light ,so velocity is constant. Even if it effect the effect is negligible. So in short answer is 3*108ms-1 -Thunder
Speed and acceleration do not directly affect gravity. Gravity is a fundamental force that acts on all objects regardless of their speed or acceleration. However, an object's speed and acceleration can influence its motion within a gravitational field, such as causing it to orbit a larger body or fall towards it at an accelerated rate.
Speed can decrease due to forces like friction, air resistance, or gravity acting in the opposite direction to the motion. Additionally, factors like an increase in mass or a change in the surface conditions can also cause speed to decrease.
The speed of a ball thrown up decreases because of gravity acting against the initial velocity. As the ball goes up, gravity pulls it back down, causing its speed to decrease until it reaches its peak height and momentarily stops before falling back down.
Speed is relative to the speed of light and gravity. So gravity could effect speed.
Gravity affects the speed of a toy car by pulling it downward, which can increase its acceleration when moving downhill and decrease its acceleration when moving uphill. The force of gravity can also affect the traction of the tires on different surfaces, influencing the overall speed and performance of the toy car.
I think it's because of gravity.
Gravity does not effect speed of light ,so velocity is constant. Even if it effect the effect is negligible. So in short answer is 3*108ms-1 -Thunder
Gravity, friction, or wind drag.
Speed and acceleration do not directly affect gravity. Gravity is a fundamental force that acts on all objects regardless of their speed or acceleration. However, an object's speed and acceleration can influence its motion within a gravitational field, such as causing it to orbit a larger body or fall towards it at an accelerated rate.
Speed can decrease due to forces like friction, air resistance, or gravity acting in the opposite direction to the motion. Additionally, factors like an increase in mass or a change in the surface conditions can also cause speed to decrease.
Because the effect of gravity is to cause forces between every two objects that have mass, and force on an object generally affects its speed.
The speed of a ball thrown up decreases because of gravity acting against the initial velocity. As the ball goes up, gravity pulls it back down, causing its speed to decrease until it reaches its peak height and momentarily stops before falling back down.
The speed of a ball thrown against gravity decreases because gravity acts in the opposite direction of the ball's motion, slowing it down. As the ball goes higher, it loses kinetic energy as it works against gravity, causing its speed to decrease until it reaches its peak and falls back down.
It is gravity that creates the force that causes an object to fall. We know that gravity is a function of mass, and the mass of the objects being considered will have an effect on how fast they fall. Additionally, the shape of the object will have something to do with how fast it falls. A flat piece of cardboard will not fall as fast as a glass ball of the same mass.
Technically as you go up the hill Gravity will decrease.But the amount is too small to measure by anymethod currently available.So in effect and for practical purposes, NO