If the net force acting on a moving object is constant, the velocity of the object will change at a constant rate, resulting in uniform acceleration or deceleration, depending on the direction of the force relative to the object's initial velocity.
When a moving object experiences a constant net force, its velocity will undergo steady and uniform changes, either accelerating or decelerating depending on the direction of the force. This consistent alteration in velocity is a characteristic response to a constant net force acting upon it.
A constant net force acting on a moving object results in uniform changes in its velocity.
This means the object will either steadily speed up or slow down, depending on the direction of the force.
Explanation:
When a constant net force acts on a moving object, its velocity changes steadily and predictably, either accelerating or decelerating based on the direction of the force. This consistent change in motion simplifies our ability to analyze and calculate the object's behavior.
Answers & Comments
If the net force acting on a moving object is constant, the velocity of the object will change at a constant rate, resulting in uniform acceleration or deceleration, depending on the direction of the force relative to the object's initial velocity.
Verified answer
Answer:
When a moving object experiences a constant net force, its velocity will undergo steady and uniform changes, either accelerating or decelerating depending on the direction of the force. This consistent alteration in velocity is a characteristic response to a constant net force acting upon it.
Explanation:
When a constant net force acts on a moving object, its velocity changes steadily and predictably, either accelerating or decelerating based on the direction of the force. This consistent change in motion simplifies our ability to analyze and calculate the object's behavior.