Forces always occur in equal and opposite directions, under Equilibrium Conditions.
equal and opposite, Yes. However, it can be hard to trace, like the coefficient of friction needs to be found (for specific items) in order to calculate losses via heat dissipation.
Forces always occur in pairs.
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"action/reaction" does not mean " force". "Applying force" is an action, not the force itself. So, applying force will create a reaction, which may or may not balance the applied force.
Faulting occurs when tensional forces act in opposite directions and cause one slab of the rock to be displaced up and the other slab down.
Anywhere on Earth. It will always be there.
No, actually its more like the opposite. it needs sun rays/sunlight to occur. hope this helps ;)
Because people always screaming!!
equal but opposite
In pairs. Newton's third law.
The two forces must be equal and opposite.
Sort of; it's true as stated, but remember that any measured force may be the resultant of two or more initial forces. But the end result is identical to two equal & opposing forces.
It states that if an object "A" exerts a force on object "B", then there will be a force of equal magnitude, and in the opposite direction, from object "B" against object "A". Thus, the forces always come in pairs.
Something is in "equilibrium" when it is in a state of perfect balance or rest. All forces acting on it are equal and opposite. It is in a "minimum" energy state.
Forces always occur in pairs. They even have reaction force pairs occur when there is no motion
True.
If you agree that Sir Isaac Newton generally knew what he was talking about, you can take the simple answer from his work. Newton's so-called 3rd law of motion says that for every action, there is an equal and opposite reaction. That pretty much rules out the possibility of a single isolated force.
Forces always occur in pairs. They even have reaction force pairs occur when there is no motion
"action/reaction" does not mean " force". "Applying force" is an action, not the force itself. So, applying force will create a reaction, which may or may not balance the applied force.
no because forces cancel only when the act on the same object. if two players kicked the same thing with opposite and equal forces at the same time, two interactions occur.