1. the amount of a force applied. The more the force applied the greater the effect.
2. the area on which the force is applied. The smaller the area the force is applied on, the greater the effect.
Magnitude refers to the size or strength of the force.
Direction indicates the direction of the force while length of the arrow represents the relative magnitude of the force.
Line of action is the straight line passing through the point of application and is parallel to the direction of the force.
Source(s):
My Science module
From a scientific point of view, this is a poorly defined question, since there are many different kinds of energy and many different kinds of force, and therefore many different relationships between energy and force. If I were to find the common denominator of such relationships it would turn out to be something excessively obvious, which is that the more energy you have, the more force you can exert.
Effect of a force allowing a body to rotate about a turning point or pivot. For example, in a lever, an effort is applied at one end of the lever to produce a turning force in order to do work on a load at the opposite end.
The presence of electrons in the area where electricity will be produced.
I don't think so but it also depends on what force is acting on what. I think.
Mass and acceleration. Force = mass x acceleration
the turning effect of force is called torque and it depends upon force and moment arm torque is directly propotional to moment arm and force
Force = Mass * Acceleration
Nothing hahhah
Any force that holds the object in place. What force that is can depend on the specific circumstances.
There are different types of energy transfers; the details depend on what type of energy transfer you are thinking about.
that would depend on the force of the energy bestowed on the object. A pitcher throwing a ball will have less force than a bat machine.
That really depends on the type of potential energy - but basically you can calculate potential energy as force x distance. This assumes constant force; if force isn't constant, you use an integral instead.
It depend on the sun because it produces energy.
Any force that holds the object in place. What force that is can depend on the specific circumstances.
There are different types of energy transfers; the details depend on what type of energy transfer you are thinking about.
that would depend on the force of the energy bestowed on the object. A pitcher throwing a ball will have less force than a bat machine.
Usually fuinneamh (energy; force, vigour; spirit, pep). But it would depend on the context.
That really depends on the type of potential energy - but basically you can calculate potential energy as force x distance. This assumes constant force; if force isn't constant, you use an integral instead.
the arrangement of it's molecules...... which depend on kinetic energy and intermolecular force.
It depend on the sun because it produces energy.
It is independent of the path travelled. Its depend only on initial and final position and is a example of conservative force.
Force is energy
Force between charges depend on the quantity of charge and distance between them
No. When there is an energy, there is often also some kind of force involved. However, you should be careful to distinguish the two. An energy is NOT a force, and a force is NOT an energy.
Carnivores depend on other animals for matter and energy.