Energy or "work"
The formula is
Energy transferred or work done is equal to the force needed times the distance moved
Wd = F x d
The answer from the Community, given below, is utter nonsense. In moving an object through a distance, the force does work.
Weight
force and energy
In energy Transfer by waves, the energy moves through the the medium, for example the water, but isn't carrying the water with it. In energy transfer by a moving object the energy is traveling by means of an object. So, energy transfer by waves can be pictured as a person (the energy) swimming through water (the medium) and energy transfer through an object can be pictured as a person (the energy) riding a bicycle (the object) In the first case the energy itself is moving through a medium, where in the second case the energy is using its power to move by use of an object. Hope this helps you understand!
The process of a force acting through a distance is called "work". It doesn't have to involve moving an object. Like for example, stretching a rubber band is work.
false \
The distance time graph for a faster moving object has a smaller slope than the graph for a slower moving object - This is False
force and energy
In energy Transfer by waves, the energy moves through the the medium, for example the water, but isn't carrying the water with it. In energy transfer by a moving object the energy is traveling by means of an object. So, energy transfer by waves can be pictured as a person (the energy) swimming through water (the medium) and energy transfer through an object can be pictured as a person (the energy) riding a bicycle (the object) In the first case the energy itself is moving through a medium, where in the second case the energy is using its power to move by use of an object. Hope this helps you understand!
The process of a force acting through a distance is called "work". It doesn't have to involve moving an object. Like for example, stretching a rubber band is work.
If the distance is not changing, the object is not moving. If the distance is increasing or decreasing linearly then the object is moving at a constant velocity. If the distance is increasing or decreasing parabolically then the object is being accelerated or decellerated.
false \
it may tell the speed of the moving object
The distance time graph for a faster moving object has a smaller slope than the graph for a slower moving object - This is False
The distance time graph for a faster moving object has a smaller slope than the graph for a slower moving object - This is False
The distance time graph for a faster moving object has a smaller slope than the graph for a slower moving object - This is False
The distance doesn't depend on the mass.
The object does not appear to be staying in one place. Or, it is moving if it's distance from another object is changing.
Only if you know your location (the coordinate on the distance scale and the time scale) where "you" are can you infer if the object is moving towards you (the absolute distance to the object is decreasing) or away from you (the distance is increasing).