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A dead load is a permanent force, acting on a structure.This includes the weight of the structure itself.A live load is a changing, or non-permanent force acting on a structure.This includes the force of the wind and the weight of things that are in or on a structure.
the force is not in the direction of the objects motion.
A fixed pulley allows the direction of the applied force to be varied. It does not change the load.
The overall force acting on an object is the sum of all of the forces acting on it. This is usually easy to work out if you remember that force is a vector so direction of each force has to be taken into account.
Yes hanging load. Its weight ie force due to gravity is acting downward. And the tension the rope is acting upward. Both the forces are acting on the load but as they are equal in magnitude and opposite in direction the resultant becomes zero.
yes becase itsdhbsdvsahdvhsjshjshj
It is the same as adding a positive and adding a negative number
as adding a ".... in the opposite direction.
In physics and engineering, a force acting on a point is called a "point load".
It moves in the direction of the force acting on it.
The forces acting in a vertical direction or in a straight direction is called vertical force
A dead load is a permanent force, acting on a structure.This includes the weight of the structure itself.A live load is a changing, or non-permanent force acting on a structure.This includes the force of the wind and the weight of things that are in or on a structure.
A force acting on a body accelerates it in the direction of the force.
the force is not in the direction of the objects motion.
A negative force. Since the force added in the opposite direction works against the original force, you would subtract the added force from the original force. Since subtracting a positive is the same thing as adding a negative, this force would be considered negative to the positive direction.
The upward force acting on an object is the normal force. It is equal in magnitude, but opposite in direction to the object's weight.