An object's inertia is its resistance to changes in its motion and mass is the quantitative measure of inertia. Strictly speaking the object's inertia will become larger the faster it goes. But at typical speeds it is unmeasurable or barely measurable . Only when the object's speed is near the speed of light is there a large change in its inertia.
Yes, a rapidly moving body and a slowly moving one can have the same acceleration if they are both experiencing the same rate of change in velocity over time. Acceleration is independent of the speed of the object and depends only on the rate at which the velocity is changing.
Yes they can, an object moving with a velocity 100m/s could have the same acceleration as 1m/s. Both of them could be moving at constant speed, therefore they would have an acceleration of 0m/s^2.
Definition of acceleration is 'the rate of change of velocity as a function of time'.
Yes, velocity is acceleration x time. If acceleration is the same, velocity can be different as it changes with time. For example a car accelerating with constant acceleration will have a different velocity after 5 seconds than it will have at 2 seconds.
Yes, same acceleration can act on bodies at different speeds.
Actually they have the same moving acceleration in most cases. Sometimes though if you drop a feather or a pencil, the pencil will drop first.
Yes.
If a body is moving with a uniform velocity, its acceleration will be zero. Acceleration is the rate of change of velocity, so if the velocity is constant, there is no change in velocity over time and thus zero acceleration.
When the body is in simple hermonic motion
Yes. "Acceleration" does not mean "speeding up". It means any change in speedor direction of motion. If the body is moving on a curve, even at a constant speed,its direction is changing, so there is acceleration.
Yes, a body moving with uniform acceleration has momentum. Momentum is the product of an object's mass and its velocity, and acceleration is the rate of change of velocity. As long as the object is moving and has mass, it will have momentum.
A moving body is decelerating when its velocity is decreasing over time. This can be observed when the speed of the body is decreasing, or when the body is moving in the direction opposite to its initial velocity. Deceleration is the opposite of acceleration, where acceleration is the rate of change of velocity, deceleration is the rate at which the speed decreases.
If a body is moving with a uniform velocity, its acceleration will be zero. Acceleration is the rate of change of velocity, so if the velocity is constant, there is no change in velocity over time and thus zero acceleration.
Force! Acceleration a=f/m, the force F changes the acceleration.
The velocity changes. called acceleration.
When the body is in simple hermonic motion
No, because acceleration is the rate of change of velocity.
Yes. "Acceleration" does not mean "speeding up". It means any change in speedor direction of motion. If the body is moving on a curve, even at a constant speed,its direction is changing, so there is acceleration.
Yes, a body moving with uniform acceleration has momentum. Momentum is the product of an object's mass and its velocity, and acceleration is the rate of change of velocity. As long as the object is moving and has mass, it will have momentum.
A moving body is decelerating when its velocity is decreasing over time. This can be observed when the speed of the body is decreasing, or when the body is moving in the direction opposite to its initial velocity. Deceleration is the opposite of acceleration, where acceleration is the rate of change of velocity, deceleration is the rate at which the speed decreases.
No, if an object is moving with constant velocity, it is not experiencing any acceleration. Acceleration refers to a change in velocity over time, so if the velocity is constant, there is no acceleration.
Acceleration is the CHANGE in velocity; you're assuming CONSTANT velocity. So the acceleration is zero.
The body will be moving with uniform acceleration. If the displacement is proportional to the square of time, then it implies that the acceleration is constant, leading to a change in velocity over time. Uniform velocity implies that there is no change in velocity.
No, a body cannot have acceleration while at rest. Acceleration is the rate of change of velocity with respect to time, so for a body to have acceleration, it must be in motion.