Yes. If the sum of the forces is zero, then the object will not accelerate - meaning it will maintain its speed.
yes
An object in equilibrium can be in motion if the forces acting on it are balanced and it is moving at a constant velocity. Alternatively, the object can be at rest if the forces acting on it are balanced and there is no net force causing it to move. In both cases, the object is in a state of equilibrium because the forces are balanced, whether it is in motion or at rest.
An object in equilibrium is not moving, as all the forces acting on the object are balanced. If the object were to be in motion, it would no longer be in equilibrium as there would be an unbalanced force acting on it.
Some examples of mechanical equilibrium include a stationary object resting on a table, a hanging object at rest, and a person standing still on the ground. In each case, the forces acting on the object are balanced, resulting in no net acceleration or movement.
what is an essential characteristic of an object in equilibrium
Light.
yes
An object in equilibrium can be in motion if the forces acting on it are balanced and it is moving at a constant velocity. Alternatively, the object can be at rest if the forces acting on it are balanced and there is no net force causing it to move. In both cases, the object is in a state of equilibrium because the forces are balanced, whether it is in motion or at rest.
An object in equilibrium is not moving, as all the forces acting on the object are balanced. If the object were to be in motion, it would no longer be in equilibrium as there would be an unbalanced force acting on it.
Yes, an object can still be in equilibrium even if it's acted on by two forces that are not perpendicular. The forces just need to have equal magnitudes and be in opposite directions along the same line of action. This condition ensures that the net force on the object is zero, leading to equilibrium.
Some examples of mechanical equilibrium include a stationary object resting on a table, a hanging object at rest, and a person standing still on the ground. In each case, the forces acting on the object are balanced, resulting in no net acceleration or movement.
No, a couple is not in equilibrium, unless there is an equal and opposite force acting against each member of the couple.Be sure to remember that something can still be moving even if it is in equilibrium. It just means it's not accelerating.A2 People often forget that there is a difference between a hypothetical point sized object and a typical sized object when applying the condition for equilibrium. If the forces on an object are equal and opposite it is only the centre of mass that is required to be at rest (or moving at constant velocity). So for a point sized object that means the entire object must be at rest. But for a typical sized object only the centre of mass is required to be at rest. If the applied forces are off centre (as with a couple) it is still possible for the object to rotate about its centre of mass. This is dynamic equilibrium. If one also applies the second condition for equilibrium then you can have static equilibrium (no motion of centre of mass and no rotation) if the system is initially at rest. The second condition for static equilibrium is that there be no net torque on the object. That is the off centre forces tending to rotate the object(say clockwise) must be balanced by other off centre forces which tend to rotate the object counter clockwise.
what is an essential characteristic of an object in equilibrium
What is the status of the Philippines Flora, Fauna and Ecological Equilibrium
Yes, an object can be moving at a constant velocity (i.e., moving with no acceleration) and have a net force of zero. This occurs when the forces acting on the object are balanced, such as when an object is in equilibrium.
If the object is moving on constant speed or it's in rest, it is in equilibrium (ΣF=0)
When the net force on an object is zero, the object is in a state of equilibrium. This means that the object's acceleration is zero, and it either remains at rest or continues moving at a constant velocity.