0
What else can I help you with?
When an object is not in motion it is said to be?
When an object is not in motion, it is said to be at rest.
If an object is not accelerating it can exist in what 2 other states of motion?
If an object is not accelerating, it can exist in two other states of motion: constant velocity motion (moving with a steady speed in a straight line) or at rest (not moving at all).
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 is the function of force and motion?
Force is a push or pull that can change the motion of an object. Motion is the change in position of an object over time. Together, force can cause motion by accelerating an object or changing its direction.
Why is an object in circular motion always accelerating?
An object in circular motion is always accelerating because its direction is constantly changing even if its speed remains constant. This acceleration is called centripetal acceleration and is directed towards the center of the circle in which the object is moving.
When an object is not in motion it is said to be?
When an object is not in motion, it is said to be at rest.
How canyou say that an object is moving in an accelerated motion?
You would say that the object in motion is accelerating. Or you can say that the object's velocity is increasing.
What object is accelerating?
The rate at which the speed or direction of its motion is changing.
What type of changes in motion might an object experience if it were accelerating?
An object that is accelerating may slow down, speed up, or change direction.
If an object is not accelerating it can exist in what 2 other states of motion?
If an object is not accelerating, it can exist in two other states of motion: constant velocity motion (moving with a steady speed in a straight line) or at rest (not moving at all).
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 is the function of force and motion?
Force is a push or pull that can change the motion of an object. Motion is the change in position of an object over time. Together, force can cause motion by accelerating an object or changing its direction.
Which two types of graphs can you use to analyze the motion of an accelerating object?
Speed-Versus-Time Graph and Distance-Versus-Time graph are the two types of graphs that can be used to analyze the motion of an accelerating object.
Why is an object in circular motion always accelerating?
An object in circular motion is always accelerating because its direction is constantly changing even if its speed remains constant. This acceleration is called centripetal acceleration and is directed towards the center of the circle in which the object is moving.
The condition of an object such that it is not accelerating is?
In a constant state of motion (which may actually be stationary).
If an object in not accelerating what can you determine about the sum of all the forces on the object?
If an object is not accelerating, it means that the sum of all forces acting on the object is equal to zero. This is in accordance with Newton's first law of motion, which states that an object will remain at rest or in constant motion unless acted upon by an external force.
What is an accelerating force?
An accelerating force is a force that causes an object to change its speed or direction of motion, resulting in acceleration. It can be exerted by various means, such as gravity, friction, or propulsion systems, and its magnitude is directly related to the object's acceleration according to Newton's second law of motion.
