Equal and opposite forces.
Torque is analogous to force. As Force produces a change in the state of linear motion of a body, Torque produces a change in the state of rotational motion of a body. The unit is newton meter (Nm) and the symbol is tau (τ) For rotational equilibrium, the algebraic sum of the torques acting on a body must be zero. ie. Στ=0
Restoring force, in a physics context, is a variable force that gives rise to an equilibrium in a physical system. If the system is perturbed away from the equilibrium, the restoring force will tend to bring the system back toward equilibrium.
the force of nature. e.g. when looking at concentration gradients it is nature that urges equilibrium on.
When the net force acting on the body is zero. The body will remain in equilibrium until an external force is applied to the body.
if only a single nonzero force acts on an object, its motion will change and will not be in mechanical equilibrium. There would have to be other forces to result in a zero net force for equilibrium.
A body is in equilibrium when the force on it is zero, thus if a single force is on the body, the force must be zero or the body will not be equilibrium.
There has to be no force or energy between two objects to have equilibrium force. #kayleyjonas# age 10
A body is in equilibrium when the force on it is zero, thus if a single force is on the body, the force must be zero or the body will not be equilibrium.
The magnitude of the resultant force in the case of the concurrent forces in equilibrium.
Restoring force, in a physics context, is a variable force that gives rise to an equilibrium in a physical system. If the system is perturbed away from the equilibrium, the restoring force will tend to bring the system back toward equilibrium.
Torque is analogous to force. As Force produces a change in the state of linear motion of a body, Torque produces a change in the state of rotational motion of a body. The unit is newton meter (Nm) and the symbol is tau (τ) For rotational equilibrium, the algebraic sum of the torques acting on a body must be zero. ie. Στ=0
the force of nature. e.g. when looking at concentration gradients it is nature that urges equilibrium on.
When the net force acting on the body is zero. The body will remain in equilibrium until an external force is applied to the body.
0. An object in equilibrium has constant velocity, which makes its acceleration 0. Since net force=mass times acceleration, this would make the net force zero. Note that there could be multiple forces acting on the object, but since it is in equilibrium they would have to be equal and opposite in direction, to cancel all of the forces out. This would make the net force zero.
At equilibrium
It is "Equilibrium".
Newton's law is F = ma; when a = 0 (no acceleration) the force is 0 and in static equilibrium. When the net force of all forces is 0 their is no motion and the object is in static equilibrium