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When an object is in rest all the forces acting on it are in what?
Wiki User
∙ 13y ago
All the forces acting on each other are in equilibrium. For instance the restoring force upward from the ground/floor is equal to the strength of the force of gravity, which acts downwards.
Wiki User
∙ 13y ago
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When an object is at rest what are the forces acting on it?
You never know. The only thing you know about the forces on an object that's not accelerating is: They all add up to zero, and their effect on the object is the same as if no forces at all were acting on it. That's the same as saying that all the forces on the object are 'balanced'.
If an object is at rest all forces acting on that object must be?
in equilibrium with a net force of zero
When does an object have zero momentum?
If the net force on an object is zero, then the object is in equilibrium. This means there are balanced forces acting upon it, or none at all.
What is a state in which all forces acting on an object are in balance?
Equilibrium is a state in which all forces acting on an object are in balance.
Are there forces acting on an object that's at rest?
Yes, there are always forces acting upon things, even when at rest (although all motion is relative so nothing is really "at rest"). There are some that are visible to the naked eye. For example, wind and corrosion. There are also forces that are not visible to the naked eye. Like the forces that make the electrons spin around the nucleus, the forces that hold the object together, etc....
An object at rest will remain at rest if?
All forces acting on it cancel out.
When an object is at rest what are the forces acting on it?
You never know. The only thing you know about the forces on an object that's not accelerating is: They all add up to zero, and their effect on the object is the same as if no forces at all were acting on it. That's the same as saying that all the forces on the object are 'balanced'.
If an object is at rest all forces acting on that object must be?
in equilibrium with a net force of zero
Does an object at rest have forces acting on it and if so what forces would be along the vertical axis?
All objects on earth have the force of Gravity acting on them.
What kind of force is required when an object is moved at rest?
To move an object that is at rest, you must overcome all other forces that are acting on the object, such as friction.
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.
When does an object have zero momentum?
If the net force on an object is zero, then the object is in equilibrium. This means there are balanced forces acting upon it, or none at all.
What are unbalanced forces and what?
Balanced forces describes when all forces on an object are equal. Unbalanced forces describes when the forces on an object are unequal, resulting in movement. Forces are balanced when the vector sum of all the forces acting on the object is zero, at which point the object will be at rest or be in motion with constant velocity. Forces are unbalanced when the vector sum of all the forces acting on the object is greater or less than zero, at which point the object will accelerate by either starting motion from rest, or changing its motion if it is already in motion, for example, by changing direction or speed.
What is a state in which all forces acting on an object are in balance?
Equilibrium is a state in which all forces acting on an object are in balance.
What is acting on the object if balanced forces are acting on an object?
No. The net force is the vector sum of all the forces acting on an object. If the forces are balanced, their sum (net force) will be zero, and the object will either be at rest or be moving at constant velocity in a straight line. If the vector sum of the forces is greater or less than zero, then the object will be accelerating, which means it will be undergoing a change in motion.
When the net forces acting on an object sum to zero then the object is acceleration?
When the net forces acting on an object sum to zero then the object's acceleration is zero.
What do you get when you combine all the forces acting upon an object?
The net force acting on the object.
