Want this question answered?
'Acceleration' is defined as the rate of change in velocity and the direction of the change. 'Deceleration' is a popular but unscientific word used to describe acceleration with a negative magnitude, i.e. 'slowing down' without regard for its direction.
With regard to Newton's First Law only, about all you could say is that if an objecthas no centripetal force acting on it, then it continues in constant, uniform motion.
The distance an object travels in a certain period of time without regard to direction is known as the object's displacement. Displacement is a vector quantity, meaning it has both magnitude (length) and direction. It is calculated by subtracting the initial position of the object from its final position. For example, if an object starts at position (2, 4) and ends at position (6, 8), the displacement would be (4, 4). Displacement is a vector quantity It has both magnitude (length) and direction It is calculated by subtracting the initial position of the object from its final positionTo put it simply, displacement is the distance an object travels in a certain period of time without regard to direction.
Motion is change of location or position of an object with respect to time. Change in motion is the result of an applied force. Motion is typically described in terms of velocity also seen as speed, acceleration, displacement, and time. However, the motion of an object is only relative to the position of another object. Motion is a change in position of an object with respect to another object.
Hmmm ... this is true, conditionally: a larger NET force gives rise to a proportional acceleration.That is to say, when you're done adding up ALL of the forces acting on a body, making sure to take direction into account, the resultant force can be related to the acceleration the body will experience with the (famous) equation:ΣF = m * aThis is Newton's second Law, a candidate for the most important equation in all of physics.Remember, "F" and "a" are vectors (direction must be considered).
'Acceleration' is defined as the rate of change in velocity and the direction of the change. 'Deceleration' is a popular but unscientific word used to describe acceleration with a negative magnitude, i.e. 'slowing down' without regard for its direction.
With regard to Newton's First Law only, about all you could say is that if an objecthas no centripetal force acting on it, then it continues in constant, uniform motion.
The distance an object travels in a certain period of time without regard to direction is known as the object's displacement. Displacement is a vector quantity, meaning it has both magnitude (length) and direction. It is calculated by subtracting the initial position of the object from its final position. For example, if an object starts at position (2, 4) and ends at position (6, 8), the displacement would be (4, 4). Displacement is a vector quantity It has both magnitude (length) and direction It is calculated by subtracting the initial position of the object from its final positionTo put it simply, displacement is the distance an object travels in a certain period of time without regard to direction.
Motion is change of location or position of an object with respect to time. Change in motion is the result of an applied force. Motion is typically described in terms of velocity also seen as speed, acceleration, displacement, and time. However, the motion of an object is only relative to the position of another object. Motion is a change in position of an object with respect to another object.
Hmmm ... this is true, conditionally: a larger NET force gives rise to a proportional acceleration.That is to say, when you're done adding up ALL of the forces acting on a body, making sure to take direction into account, the resultant force can be related to the acceleration the body will experience with the (famous) equation:ΣF = m * aThis is Newton's second Law, a candidate for the most important equation in all of physics.Remember, "F" and "a" are vectors (direction must be considered).
it means that u have low regard
Static means at rest, so the opposite would be motion.
Frame of reference
effort, resistance
1. With regard to whether they admit an object or not: 1. Transitive 2. Intransitive 2. With regard to its relationship with the complement and object-types: 1. Intensive 2. Extensive 3. With regard to whether they can be progressive or not: 1. Stative 2. Dynamic
"Acceleration" means any change in speed or direction, not always "speeding up". Your question seems to regard 'acceleration' as 'speeding up'. In that case, the speed is continuously increasing. So no matter how low it is when you begin the experiment, and no matter how large or small the rate of acceleration may be, if you wait long enough, the speed won't be relatively low any longer.
Its position, relative to the point of reference.