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That would be forces that act in the same direction, or more or less in the same direction.
If all of the individual forces on an object act in the same direction, then the net force on it is simply the sum of the magnitudes of the individual forces, and is in the same direction as all of them.
If two forces are in the same direction, then their resultant is also in the same direction, and its magnitude is the sum of the two components' magnitudes.
No, they are not. The forces are balanced only when forces of equal magnitude are acting in the opposite direction.
Frictional Force
That would be forces that act in the same direction, or more or less in the same direction.
In the same direction, you simply add them
how two forces are added if they are not concurrent but are acting in same direction
If all of the individual forces on an object act in the same direction, then the net force on it is simply the sum of the magnitudes of the individual forces, and is in the same direction as all of them.
If two forces are in the same direction, then their resultant is also in the same direction, and its magnitude is the sum of the two components' magnitudes.
Size: the same. Direction: the forces are in opposite directions.
No, they are not. The forces are balanced only when forces of equal magnitude are acting in the opposite direction.
The forces add together.
Frictional Force
friction
Forces which are parallel and acting in same direction are called like parallel forces. Forces which are parallel and acting in opposite direction are called unlike parallel forces.
Add the forces together, F1 + F2 = F. The result F is in the same direction.