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λ can be used for the symbol for distance moved as well as the symbol for wavelength.
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∙ 13y ago
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If the masses do not change but the objects are moved farther apart r becomes bigger will be gravitational force become stronger or weaker?
If the masses do not change, but the objects are moved farther apart, the gravitational force becomes weaker, due to the distance between the objects.
When you moved two objects farther apart how would this affect the force of gravity between the two objects?
As distance increases, the force of gravity decreases.
When objects are moved further apart from each other the forces of gravity between us?
If the distance between the objects increases, the force of gravity will decrease.
Force moved through a distance?
Force moved through a distance is work. Work = Force x Distance
When objects are moved further apart from each otherthe force of gravity between them?
" ... decreases." Gravitational force is inversely proportional to the square of the distance between the objects.
How is the word 'work' defined in physics?
Work is the transfer of energy. It is performed when a force causes an object to be displaced causing the object to be moved in the direction of the force. Work = force x distance.
Formula of mechanical advantage?
Distance moved by input force / distance moved by output force
How does force exerted by two magnets change as the magnets are moved farther apart?
When distance between two magnets decrease, the less magnet force the magnet has.
What is this an example of in physics if a dog five minutes later moved 10 m away from the door of a house Is this relative motion distance displacement acceleration instantaneous speed?
Part of it is relative motion.
Actual mechanical advantage of a pulley?
Mechanical Advantage = distance moved at input / distance moved at output
When objects are moved further apart from each other the force of gravity does what?
In classical physics, the force of gravity between two objects is given by the following equation: F = G(Mm/(r^2)) Where F is the force, G is a number called the Universal Gravitational Constant, M and m are the masses of the two objects, respectively, and r is the distance between them. From this equation we see that F, the force is proportional to 1/(r^2). This is known as the inverse squares law. When objects are moved apart, the radius r increases and so the force of gravity decreases in accordance with the inverse square proportionality.
Is measured by combining the weight moved and the distance moved?
resistance
