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Is it possible for the net force acting on an object to be negative?
Yes, it is possible for the net force acting on an object to be negative. This means that the forces acting on the object are in opposite directions, resulting in a net force that is negative.
Is it possible for an object to not be in motion and still have forces acting on it?
Yes, it is possible for an object to not be in motion and still have forces acting on it. This situation could occur if the forces acting on the object are balanced, resulting in a state of equilibrium where there is no net force causing motion.
Five different forces act on an object Is it possible for the net force on the object to be zero?
If five different forces are acting upon an object, it is still possible for the net force on the object to be zero. One configuration is forces acting in the form of a regular pentagon, the components of each cancelling each other out
Can the net force acting on an object be negative?
No, the net force acting on an object cannot be negative.
How are force and motion different from each other?
Force and motion are different in that force is a push or pull acting on an object, while motion is the change in position of an object over time. Force causes motion by influencing the speed or direction of an object.
Is it possible for the net force acting on an object to be negative?
Yes, it is possible for the net force acting on an object to be negative. This means that the forces acting on the object are in opposite directions, resulting in a net force that is negative.
Is it possible for an object to move if no net force is acting on it?
no
Is it possible for an object not to be in motion and still have a force acting on it?
Yes, the object can have equal forces acting in opposite directions: 5N ->[]<- 5N The object will have forces acting upon it, but will not move.
What are the between balanced force and unbalanced force?
An object with balanced forces acting on it is still. An object with unbalanced forces acting on them moves at an non constant velocity. It is possible for an object to have balanced forces acting on it and yet move in a vacuum.
Are there no force acting on an object if the accelaration of the object if zero?
Not exactly. If the acceleration of the object is zero, there might be no force actingon it, but there could also be no net force acting on it. That means that there couldbe a bunch of different forces acting on it, with different strengths and directions, butthey all add up to zero.
Is it possible for an object to stay at rest when only one force acts on it and explain using the principles of uniform and uniformly motion?
no its not possible. if there is only one force acting on an object.
Is it possible for an object to not be in motion and still have forces acting on it?
Yes, it is possible for an object to not be in motion and still have forces acting on it. This situation could occur if the forces acting on the object are balanced, resulting in a state of equilibrium where there is no net force causing motion.
Five different forces act on an object Is it possible for the net force on the object to be zero?
If five different forces are acting upon an object, it is still possible for the net force on the object to be zero. One configuration is forces acting in the form of a regular pentagon, the components of each cancelling each other out
Can the net force acting on an object be negative?
No, the net force acting on an object cannot be negative.
What is the upwars force acting on an object?
The upward force acting on an object is the normal force. It is equal in magnitude, but opposite in direction to the object's weight.
How are force and motion different from each other?
Force and motion are different in that force is a push or pull acting on an object, while motion is the change in position of an object over time. Force causes motion by influencing the speed or direction of an object.
What is the overall force acting on an object?
The overall force acting on an object is the vector sum of all individual forces acting on the object. It takes into account both the magnitude and direction of each force acting on the object. This overall force determines the object's acceleration according to Newton's second law of motion.
