As the body is at rest, its distance from some point is not changing, so the graph will be a straight line parallel to the time axis (including the possibility of being on the time axis).
The graph indicates the same distance for any point in time.
It's a straight horizontal line, parallel to the time axis.
This cannot be answered. In order for this to be answered you will have to give me the value to the letter X.
If air resistance can be ignored, the distance in meters is 4.9t2. Note that 4.9 is half the numerical value of Earth's acceleration (9.8 meters per second square).
distance = speed x time the speed is the slope of the line which if parallel to X axis is zero - that means speed = 0 and distance is not changing with time, so the object is at rest ( not moving) relative to the observer
If starting from rest, Distance = 1/2 (acceleration) x (time)2 . Otherwise, Distance = 1/2 (initial speed + final speed) x (time)
0.7848 meter
the slope of distance time graph gives us velocity but when the body is at rest it will be zero
about a hour
because yur body needs to get rest from all human nature and sleeping for a cetain amount of time helps increase your tallness
The normal force causes a body to move from its rest position and covers a distance.
No. Acceleration is the rate at which the speed is INCREASING. Since the speed is increasing,the distance traveled by the body in each time interval is also increasing.
The instantaneous slope at any point along the graphed line is the speed at that point in time.
a body at rest may have speed
d = 1/2 a t2 where d is distance traveled a is the constant acceleration t is the time You can calculate the value of "a" by dividing "v" by "t".
A body at rest and a body in motion have completely different velocities.Magnitude of velocity:At rest . . . zeroMoving . . . not zeroDirection of velocity:At rest . . . no directionMoving . . . some direction
distance = 1/2 acceleration x time squared; acceleration is 7 m/s/s
The heart is the organ responsible for pumping blood to the rest of the body.
A body is said to be rest, if it does not change its position with respect to its surroundings.