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gravity
The force in an inflated balloon is exerted outward equally in all directions.
For any object to be at rest the Forces acting on it must be EQUAL in magnitude and OPPOSITE in direction.
Forces are vector quantities. This means they have both a magnitude and direction associated with them. If you add vectors going in the opposite directions it is the same as subtracting one from the other. Therefore, the resultant force is the difference between the forces.
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.
You calculate the vector sum of all the forces acting on the object. For example, if one force is in the positive direction, say 8N, and another force is in the opposite direction, say -7N, the net force would be 8N + (-7N) = 1N.
gravity
The force in an inflated balloon is exerted outward equally in all directions.
Equal forces acting on an object in opposite directions are called balanced forces. If they are on the same line of action, they are called couple forces.
if the two forces are acting in an opposit direction they can not be in equilibrum.but if they acting in thesame direction from different angles they can be in equilibrum.
The object behaves as if there were a single force acting on it, which is the vector sum of the multiple forces.
A resultant is when a force equivelent to two or more other forces acting in different directions at the same point.AnswerA resultant is when a force equivelent to two or more other forces acting in different directions at the same point.
For any object to be at rest the Forces acting on it must be EQUAL in magnitude and OPPOSITE in direction.
Forces are vector quantities. This means they have both a magnitude and direction associated with them. If you add vectors going in the opposite directions it is the same as subtracting one from the other. Therefore, the resultant force is the difference between the forces.
Forces are vector quantities. This means they have both a magnitude and direction associated with them. If you add vectors going in the opposite directions it is the same as subtracting one from the other. Therefore, the resultant force is the difference between the forces.
You subtract the smaller force from the larger force and use the direction of the larger force.
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.