Want this question answered?
That simply means that when analyzing forces, the direction is quite often relevant. For example, if two people push an object in the same direction, the result will not be the same as if they push in opposite direction. A vector is simply a physical measurement that has both a magnitude (number) and a direction.
As an example, if two people push in opposite directions, they won't get anything done; if they push in the same direction, the net force increases.
When they are acting on the same object at the exact same spot. For example pressure pushes in every direction at 14.7 psi, say there is a box and you push it upward the force pushing up is more than the force pushing down.
It is the sum of the forces applied by each
That would be forces that act in the same direction, or more or less in the same direction.
That simply means that when analyzing forces, the direction is quite often relevant. For example, if two people push an object in the same direction, the result will not be the same as if they push in opposite direction. A vector is simply a physical measurement that has both a magnitude (number) and a direction.
As an example, if two people push in opposite directions, they won't get anything done; if they push in the same direction, the net force increases.
When they are acting on the same object at the exact same spot. For example pressure pushes in every direction at 14.7 psi, say there is a box and you push it upward the force pushing up is more than the force pushing down.
they not only push down on you but they push you from all directions
It is the sum of the forces applied by each
If two forces are in the same direction, they aid one another, making it easier to push or pull.
That would be forces that act in the same direction, or more or less in the same direction.
The electrostatic forces between two objects that have the same kind of charge act in the direction to push the objects apart.
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.
As best they can, they should push in the same direction.As best they can, they should push in the same direction.As best they can, they should push in the same direction.As best they can, they should push in the same direction.