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If the force acting upon an object are balanced then the object Amust not be moving Bmust be miving with constant velocity Cmust not be accelerating Dnone of these?
If the force acting upon an object are balanced then the object must not be accelerating
Can an object be accelerating if it has constant velocity?
No. The definition of acceleration is the change in an object's velocity over time. Acceleration must then be zero since velocity remains constant.
Is it true that in order for an object to move in uniform circular motion it must not be accelerating?
No, in uniform circular motion, the object is accelerating because its direction is continuously changing, even though its speed remains constant. The object is accelerating toward the center of the circle, experiencing centripetal acceleration.
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 true about the forces if you are accelerating?
If you are accelerating, there must be an unbalanced force acting on the object. The net force is what causes acceleration according to Newton's second law, F=ma. If the forces are balanced, then the object will either be at rest or moving at a constant velocity.
If an object is accelerating then the forces on it must be?
Friction force
If the force acting upon an object are balanced then the object Amust not be moving Bmust be miving with constant velocity Cmust not be accelerating Dnone of these?
If the force acting upon an object are balanced then the object must not be accelerating
What are the five conditions to maintain equilibrium?
The net force acting on the object must be zero. The net torque acting on the object must be zero. The object must not be accelerating. The object must be in a stable position. The object must have no external disturbances acting on it.
Can an object be accelerating if it has constant velocity?
No. The definition of acceleration is the change in an object's velocity over time. Acceleration must then be zero since velocity remains constant.
Is it true that in order for an object to move in uniform circular motion it must not be accelerating?
No, in uniform circular motion, the object is accelerating because its direction is continuously changing, even though its speed remains constant. The object is accelerating toward the center of the circle, experiencing centripetal acceleration.
If an object is not accelerating what can you determint about the sum of all the orces on the object?
In that case, the sum of all forces must be zero.
Does an object that has balanced forces or no force acting on it must be stationary?
No. An object that has no net force on it will simply not be accelerating. It can be in motion, but it can not have any change in its velocity.
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 true about the forces if you are accelerating?
If you are accelerating, there must be an unbalanced force acting on the object. The net force is what causes acceleration according to Newton's second law, F=ma. If the forces are balanced, then the object will either be at rest or moving at a constant velocity.
If an object is accelerating can the net force acting on it ever be zero?
No, if an object is accelerating, there must be a net force acting on it in the direction of the acceleration. Newton's second law states that the net force on an object is directly proportional to its acceleration, so a non-zero net force is necessary for acceleration.
If an object starts to accelerate?
If an object moved with constant acceleration it's velocity must ?
What three things must you know to describe the position of an object?
To describe the position of an object, you must know its distance from a reference point, its direction from the reference point, and its location relative to other nearby objects.
