Table of Contents
- 1 Under what condition will the distance and displacement be equal?
- 2 Does magnitude equal distance and displacement?
- 3 When the distance is always greater than the magnitude of displacement?
- 4 Under what condition the magnitude of average velocity of a particle is equal to the average?
- 5 Why magnitude of distance is greater the magnitude of displacement?
- 6 What happens to displacement when the direction of travel is changed?
- 7 When the magnitude of average velocity and average speed are the same?
Under what condition will the distance and displacement be equal?
When the object moves along the same straight line in the same fixed direction, distance and displacement are equal.
Can the magnitude of displacement be greater than the distance Travelled by the object under what conditions the distance and magnitude of the displacement are equal?
No, the magnitude of the displacement is always less than or equal to the distance traveled. If two displacements in the same direction are added, then the magnitude of their sum will be equal to the distance traveled.
Does magnitude equal distance and displacement?
It is important to note that the distance traveled does not have to equal the magnitude of the displacement (i.e., distance between the two points). Specifically, if an object changes direction in its journey, the total distance traveled will be greater than the magnitude of the displacement between those two points.
Under what condition is the magnitude of average?
The magnitude of the average velocity of an object is equal to its average speed, only in one condition when an object is moving in a straight line. The average speed is the total distance travelled in a given time frame and velocity is the total displacement in the time frame.
When the distance is always greater than the magnitude of displacement?
The magnitude of the displacement is always less than or equal to the distance traveled. If two displacements in the same direction are added, then the magnitude of their sum will be equal to the distance traveled. The displacement can never be greater than the distance travelled by the body.
Can the magnitude of the displacement ever be greater than the object travels?
Under what condition the magnitude of average velocity of a particle is equal to the average?
The magnitude of average velocity is equal to average speed if velocity is constant.
Under what conditions is the magnitude of average velocity of an object equal to its average speed?
Answer: The magnitude of the average velocity of an object is equal to its average speed, only in one condition when an object is moving in a straight line. The average speed is the total distance travelled in a given time frame and velocity is the total displacement in the time frame.
Why magnitude of distance is greater the magnitude of displacement?
When is the magnitude of displacement equal to the distance traveled?
Magnitude of Displacement and Distance traveled is exactly equal to each other only when the body follows the following two conditions: Moves in a straight line. Does not change its direction. When these two conditions are obeyed by a moving body the magnitude of displacement and distance traveled is equal.
What happens to displacement when the direction of travel is changed?
The magnitude of the displacement of a moving body is equal to the distance traveled by the body when the said body travels in a straight path in only one direction. By changing the direction of travel the displacement of the moving body will not be equal to the distance traveled.
Is it possible for the distance to be shorter than displacement?
No, it is impossible for the distance to be shorter than the displacement, yes it can be equal, or greater, but not shorter than displacement. Displacement is Distance but with the frame of direction that is, a vector quantity, whereas distance is a scalar quantity.
When the magnitude of average velocity and average speed are the same?
The magnitude of average velocity and average speed will be the same when the total distance travelled is equal to the displacement. The average velocity of a body in a certain time interval is given as the displacement of the body in that time interval divided by time.