line of action of a force is a line , passing through point of application of force and also contains
Line of action of force is a line, passing through point of application of force and also contains the direction of force.
Magnitude, direction, point of application and line of action are the four components of force.
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we can show moment arm as r=torque divide by force.
The turning effects of forces are known as moments. A moment is computed by multiplying the force by the perpendicular distance from its line of action to the fulcrum.
Line of action of force is a line, passing through point of application of force and also contains the direction of force.
Magnitude, direction, point of application and line of action are the four components of force.
A moment, also known as torque, is a measure of the tendency of a force to cause an object to rotate around an axis or point. It is calculated by multiplying the magnitude of the force by the perpendicular distance from the line of action of the force to the axis of rotation. The moment of a force is the product of the force and the perpendicular distance from the point of rotation to the line of action of the force. It is a vector quantity that describes how much a force tends to make an object rotate. Moments are important in physics and engineering for understanding the effects of forces on objects and structures.
It is the direction of the vector representing the force.
It is the direction of the vector representing the force.
The line of action of a force F expresses the geometry of how F is applied. It is the line through the point at which F is applied and along the direction in which F is applied.
"The condition of equilibrium or motion of a rigid body is remain unchanged, if a force acting on the rigid body is replaced by another force of the same magnitude and same direction but, acting anywhere along the same line of action."
Contact forces: frictional force, tension Force, air resistance force , applied force and spring force Action-at-a-Distance Forces: gravitantional, electrical and magnetic force If this was the answer you where looking for :)
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The law that when one body exerts force on another, the second body exerts a collinear force on the first equal in magnitude but oppositely directed.
That's the torque due to the force.