the gravitational pull makes the object fall quicker. it doesn't matter about weith
Height does not affect distance.
The effect of increasing the height of the track on the acceleration of the object is that more work is required to accelerate. It increases the gravity.
force and acceleration
The force acting upon the object as well as the mass of the object. Both will affect the acceleration of the object.
the gravitational pull makes the object fall quicker. it doesn't matter about weith
potential energy is mass times height times gravity acceleration; so for example if you double the height or double the mass you double the potential energy
Apex Mass and height have the same effect on gravitational potential energy.
It reduces the acceleration of the falling object due to friction.
No, acceleration due to gravity is a constant at 9.81ms-2. It cannot be influenced by other factors such as height.
Height does not affect distance.
Ep (joules) = mass * acceleration due to gravity * height So: height = Ep / (mass * acceleration due to gravity)
The effect of increasing the height of the track on the acceleration of the object is that more work is required to accelerate. It increases the gravity.
Energy can neither be created nor be destroyed. When we lift certain thing to a certain height we have to done some work on it . This energy is stored in the form of potential energy. Potential energy = mass * acceleration due to gravity * Height of object from ground. As height increases PE increases.
Its acceleration is always the same - the acceleration of gravity at 32 ft/sec/sec - no matter what distance it is during drop, until it hits the ground.
Yes. F/m=a mass is inverse to acceleration.
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