The expected answer - of either a position time graph or a speed time graph - is wrong. That is because these take account of motion in the line joining the origin to the moving body but not any motion in a transverse direction.
You can use a line graph if your measuring the motion in separate experiments or comparing.
Motion implies momentum, which implies velocity. Linear implies a straight line. Accelerating implies changing velocity. And uniform implies constancy. So, when an object moves in a straight line and accelerates at a constant rate, you have uniformly accelerating linear motion.
No, it depends on radial acceleration.
If the motion is all in a straight line, then Displacement = (1/2) x (acceleration) x (time spent accelerating)2
If its slanted up its accelerating, if down its decelerating.
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.
Accelerating.
You would say that the object in motion is accelerating. Or you can say that the object's velocity is increasing.
The rate at which the speed or direction of its motion is changing.
The rate at which the speed or direction of its motion is changing.
An object that is accelerating may slow down, speed up, or change direction.
gravity
It lets us know how the object can zig-and zag.
Gravity
Gravity
Because the object is not moving in any direction at all. Therefore its not accelerating or in motion.
In a constant state of motion (which may actually be stationary).