Forces which cancel each other will not cause motion. For example, force of normal usually cancels force of gravity.
Force of friction does not actually cause motion, but rather opposes it.
If there is no motion, any forces must be balanced. That means that the sum of all forces on an object must be zero.
-- lifting an object from the ground with a force less than its weight
-- pushing on an object while you're standing on it, such as a skateboard
or the Earth
-- pushing on anything with any amount of force in any direction,
when there's somebody else pushing on the same thing with the
same amount of force in the exact opposite direction
it depends of what the object is made, and in what way the force is directed to the object, and the environment of the object(temperature for example). molecular forces in the atoms of which the object is made of, there are few types of them, example is core forces. Also, sitting on a chair is a pretty out there example.
A force that does not change motion must be balanced by an equal but in the opposite direction such that the net force is zero.
Forces that result in no change in an object's motion balanced forces.
Example: potenial energy, A ball sitting on the floor.
Static forces do not cause an object to move.
Balanced opposing forces, also known as forces in equilibrium.
gravity
When all forces are balanced, the object is either stationairy or moving in one direction inTekkit - Episode 2 a constant speed
what starts to move an object is force because it's pushing on the object and what stop's the obect from moveing is force too because if the force is going the oppisit way its going to stop the object.
they cause the object to move with acceleration given by A nett force.
Objects move according to their net force, or the total amount of force acting on them. Balanced forces are just that, balanced. An object with balanced forces will not move because the opposing forces will cancel each other out. However, if there are unbalanced forces, the object will move in accordance with the force that is greater. When moving though, there is always friction. Whether you be underwater, on the ground, or in the air there is always friction on the Earth. (Besides vacuums, of course.) Force is equal to mass x acceleration. With that you can find the forces of the object if you know its mass and acceleration.
-- An unbalanced group of forces on an object causes the object to accelerate in the direction of the net force. -- If an object is not moving, then the group of forces on it must be balanced, else it would be accelerated.
Balanced forces applied on both sides of an object cause it to be still. Unbalanced forces will cause the object to move away from the strongest force.
Balanced forces.
Balanced forces applied on both sides of an object cause it to be still. Unbalanced forces will cause the object to move away from the strongest force.
1. push 2.pull
A force can cause an object to move if the amount of the force in the direction of movement is larger than the Frictional force of the object against the object on which it rests, and can overcome its Inertia.
If the object doesn't move, the forces HAVE TO be balanced. There is no other way.
The forces cause the object to move in the direction of the net force. If there are two unbalanced forces in opposite directions, the object will go in the direction of the stronger force.
balanced forces don't move an object, but unbalanced forces on an object do move
Any unbalanced force will cause the object to accelerate in the direction of the net force. This means that applying unbalanced forces to an object will cause it to move. Thinking of applications for moving objects is very easy.
If the forces on an object are balanced then the object will not move. This simply means that the forces on the object counteract each other. If they are unbalanced then the object will move under the effect of the resultant force. The resultant force is the combination of all of the forces acting on an object.
The forces are said to be static.
A layman's attempt: Any unbalanced force applied over time to an object that is free to move will bring about acceleration.