The acceleration is constant in this case.
Gravitational pull is constant...but is limited in a atmosphere due to wind resistance (terminal velocity).
The sum of the kinetic and potential energies of a freely falling body is constant and equal to the total mechanical energy. This is a result of the conservation of energy principle, where the body's potential energy is converted into kinetic energy as it falls, keeping the total energy constant.
The acceleration due to gravity is constant for a freely falling body. This means that the object will experience a constant acceleration of 9.81 m/s^2 (on Earth) in the downward direction, regardless of its mass. This allows us to predict the motion of the object using equations of motion.
If the 'weight' of a body is the gravitational force between the body and the Earth, then as long as the body stays at about the same distance from the center of the Earth, its weight is constant, and has no connection with its motion.
When the body falls freely towards the Earth, its total energy is constant. The body's kinetic energy increases as it gains speed, while its potential energy decreases as it moves closer to the Earth's surface. The sum of the body's kinetic and potential energy remains the same throughout the fall.
If the velocity is constant then there is no acceleration. The acceleration is zero.
Changing at a constant rate equal to acceleration.
No. "Uniform motion" means motion at a constant speed in a straight line. But the speed of a body falling freely to the ground is continuously increasing, in response to the force of gravity.
No. If demand rises, then supply falls. Transveresly, if demand falls, then supply rises.
a "body" "moving body" an "object" is moving with constant velocity. [OR] a "body" is moving with constant velocity.
you keep your body constant by, keeping the levels of sugar levels and keeping your body warm and keeping it at the level
If gravity is the only force acting on a falling body, then its acceleration is constant until it hits the ground, and the number is 9.81 meters (32.2 feet) per second2 .