-- First of all, motion doesn't require any force.
-- If the forces on an object are unbalanced, then the object's motion changes. Always.
-- If the forces on an object are balanced, then the object's motion doesn't change.
yes it depends if you push or pull if you do then thats motion
Push, gravity, and friction are all examples of forces that can cause objects to move or change their motion. Push and gravity are forces that can cause objects to accelerate, while friction is a force that opposes motion and can cause objects to slow down. They all involve interactions between objects and the forces acting on them.
Not necessarily. Forces can act on an object even if it is not in motion, causing it to accelerate or just balance out other forces. The net force on an object determines its motion, accounting for all forces acting on it.
No, balanced forces do not cause any change in an object's state of motion. When the forces acting on an object are balanced, the object will either remain at rest or continue moving at a constant velocity.
An unbalanced group of forces on an object causes the object to accelerate.Its acceleration is (the vector sum of all the forces)/(the object's mass) .
Forces are considered balanced when all of the combined forces lead to no change in the motion of the object.
yes it depends if you push or pull if you do then thats motion
If the forces acting on an object are equal there is no motion (5N->O<-5N). If the forces are unequal there is movement (7N-->O<-5N).
Push, gravity, and friction are all examples of forces that can cause objects to move or change their motion. Push and gravity are forces that can cause objects to accelerate, while friction is a force that opposes motion and can cause objects to slow down. They all involve interactions between objects and the forces acting on them.
ANY force can cause a change in motion, as long as the sum of all the forces acting on an object is non-zero. For example, if two people pull on an object in opposite directions, and with forces that have the same magnitude, then the sum of the forces would be zero, and the object won't accelerate.
Not necessarily. Forces can act on an object even if it is not in motion, causing it to accelerate or just balance out other forces. The net force on an object determines its motion, accounting for all forces acting on it.
No, balanced forces do not cause any change in an object's state of motion. When the forces acting on an object are balanced, the object will either remain at rest or continue moving at a constant velocity.
There are five forces and they all cause motion if not zero. The five are derived from the derivative of Quaternion energy, W=[w,W]. F = XW = [d/dr, Del][w, W] = [dw/dr -Del.W, dW/dr + Del w + DelxW].
* Balanced: The vector sum of all forces on an object is zero. The object does not accelerate.* Unbalanced: The vector sum of all forces on an object is NOT zero, the object DOES accelerate.
An unbalanced group of forces on an object causes the object to accelerate.Its acceleration is (the vector sum of all the forces)/(the object's mass) .
All forces involve the interactions between objects, causing changes in motion or deformation. They are described by magnitude, direction, and point of application. Forces obey Newton's laws of motion and can be classified as contact forces or action-at-a-distance forces.
Forces are necessary to cause objects to move or change their motion. Without a force acting on an object, it would remain stationary or continue moving in a straight line at a constant speed due to Newton's first law of motion. In other words, forces are required to accelerate, decelerate, or change the direction of an object's motion.