0
result in a net force of 0 N
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If an object is at rest all forces acting on that object must be?
If an object is at rest, the net force acting on it must be zero. This means that all forces acting on the object must be balanced and equal in magnitude but opposite in direction.
When is an object in equilibrium?
When the forces acting on the object are stable
In order for an object not to move the forces on it must all be?
In order for an object not to move, the forces on it must be balanced. This means that the net force acting on the object is zero, resulting in no acceleration and thus no movement.
What conditions must be met for an object to be at equilibrium?
For an object to be at equilibrium, the net force acting on it must be zero, which means that the forces are balanced and cancel each other out. Additionally, the object must not be accelerating, so the net torque acting on it must also be zero.
What must be true about the forces acting on an object if the motion of the object is static?
The forces must be greater in one direction than in the opposing direction, and therefore, must be sufficient to overcome inertia, friction, and any other force that opposes a change in speed.
If an object is at rest all forces acting on that object must be?
If an object is at rest, the net force acting on it must be zero. This means that all forces acting on the object must be balanced and equal in magnitude but opposite in direction.
What must be true about the forces acting on an object if the motion of the object does not changes?
The forces must be balanced; the forces must be equal in size and opposite in direction. (Net force must equal zero).
In order to move an object at rest you must make sure the forces acting on that object are?
unbalanced
Describe what the forces acting on an object must be in order for the net force to be zero?
The vector sum of the forces must be zero.
What must be true about the force acting on an object if the motion of the object does not change?
The forces must be balanced; the forces must be equal in size and opposite in direction. (Net force must equal zero).
When is an object in equilibrium?
When the forces acting on the object are stable
In order for an object not to move the forces on it must all be?
In order for an object not to move, the forces on it must be balanced. This means that the net force acting on the object is zero, resulting in no acceleration and thus no movement.
What must the net force equal if all forces acting on the object are balanced?
Zero
What are the conditions to balanced the forces?
The sum of the forces must be zero. More precisely, "the forces on an object are balanced" means the same as "the vector sum of the forces acting on an object is equal to zero".
What are the conditions for forces to balanced?
The sum of the forces must be zero. More precisely, "the forces on an object are balanced" means the same as "the vector sum of the forces acting on an object is equal to zero".
What conditions must be met for an object to be at equilibrium?
For an object to be at equilibrium, the net force acting on it must be zero, which means that the forces are balanced and cancel each other out. Additionally, the object must not be accelerating, so the net torque acting on it must also be zero.
What is the questions to the forces on object at rest?
For an object to be at rest, the sum of all the forces acting on that object must be zero.If you want to formulate a question, you can base it on that.
