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How do you explain the effect of balanced forces on the state of motion of an object?
A balanced group of forces acting on the object has no effect on its motion. The object continues moving in a straight line at constant speed.
Can balanced forces act on a moving object explain your answer?
When the forces on an object are balanced, then they have the same effect on itas NO FORCE at all would have. That means that the object does not accelerate,and THAT means that it continues moving in a straight line, at a constant speed.If that didn't blow your mind, then please read it again. One of the things it tells usis that it doesn't take ANY FORCE to keep an object moving.
What happens when the same force is applied to an object?
If the object was stationery before any forces were applied it will remain stationery, and if it was moving it will remain moving but at a constant speed. There is no resultant force so the object experiences no acceleration.
Forces acting on an object that is not moving are described as this?
It can be said that the net force applied on the object is zero or that the object is in translational equilibrium. Keep in mind that these terms can also be applied if the object is moving at a constant velocity.
What happens if a balanced forces are applies to a moving object?
When balanced forces are applied to a moving object, the object likely slow and eventually stop. How quickly that occurs depends on the amount of force.
What is the effect of balanced forces on an object that is not moving?
A group of balanced forces adds vectorially to zero, so has no effect on any object, whether it's moving or not moving.
What effect do forces have on a moving object?
Balanced forces will not change the velocity - speed and direction - of a moving object. the object will continue to move in the same way.
Example for when balance forces are applied then also the body is moving?
an object moving through a vaccuum
Does balance forces acting on an object cause the object to accelerate?
No. A balanced group of forces has the same effect on an object as no force at all.
What happens when there are unbalanced forces acting on an object that is not moving?
it will lost its balance and crash
How do you explain the effect of balanced forces on the state of motion of an object?
A balanced group of forces acting on the object has no effect on its motion. The object continues moving in a straight line at constant speed.
Do force always got to cause motions?
No. A non-moving object has forces acting on it, but the forces are in balance in such a case.
What are the two pairs of forces that could balance one another?
Two pairs of forces that could balance each other are tension and weight in a hanging object, and friction and applied force in an object moving at a constant velocity.
What is the cumulative effect of the forces on the objects motion?
The cumulative effect of the forces acting on an object determines its overall motion. If the forces are balanced, the object will maintain its current state of motion (either at rest or moving at a constant velocity). If the forces are unbalanced, the object will accelerate in the direction of the net force applied.
Balance forces have what affect on an objects motion?
"Balanced forces" means a set of forces that add up to zero.This group of forces acting on a single object have no effect on its motion, because they add up to zero,and their effect is equivalent to zero force on the object.
Can balanced forces act on a moving object explain your answer?
When the forces on an object are balanced, then they have the same effect on itas NO FORCE at all would have. That means that the object does not accelerate,and THAT means that it continues moving in a straight line, at a constant speed.If that didn't blow your mind, then please read it again. One of the things it tells usis that it doesn't take ANY FORCE to keep an object moving.
What is the test for whether or not a moving object is in equilibrium?
If a moving object is in equilibrium, the vector sum of all forces acting on it is zero. This can be determined by analyzing the forces acting in all directions (horizontal and vertical) to see if they balance out. If the net force is zero, the object is in equilibrium.
