Forces acting on a point such that it gives a null vector by vector addition law, then such type of forces are called balanced forces.
when they are even
The forces are:Drag and Friction
result in a net force of 0 N
Then the result will be the same as if NO forces act on the object (since the sum of the forces is zero). The object will continue moving in a straight line, at constant speed.
"Balanced" means that the sum of all forces acting on an object is zero."Unbalanced" means that the sum of all such forces is NOT zero. (The "sum" refers to a vector sum.) An unbalanced force will result in an acceleration; a balanced force won't.
when they are even
The forces are:Drag and Friction
result in a net force of 0 N
because they're not balenced
Then the result will be the same as if NO forces act on the object (since the sum of the forces is zero). The object will continue moving in a straight line, at constant speed.
"Balanced" means that the sum of all forces acting on an object is zero."Unbalanced" means that the sum of all such forces is NOT zero. (The "sum" refers to a vector sum.) An unbalanced force will result in an acceleration; a balanced force won't.
If all of the forces on an object are balanced, then their net effect on the object is the same as if there were no force on it at all. Under those circumstances, its acceleration is zero, meaning that its speed and direction of motion do not change.
it means like...... take a pen and put it in your hand you might not feel this but your hand is pushing against the pen if you keep the pen in the same place the forces are balanced but if you raise the pen the forces are unbalanced
No, it is not.
Forces that cancel each other out are said to be balanced.
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