- Speed up then slow down
- Slow down then speed up
- Maintain constant speed
- Stop instantaneously
No category found.
- Yes, because speed is constant.
- No, because direction of velocity is changing.
- Yes, because magnitude of acceleration is constant.
- No, because acceleration is zero.
- a=(v?u)/t
- a=(u?v)/t
- a=(v+u)/t
- a=d/t
- Zero acceleration
- Uniform acceleration
- Non-uniform acceleration
- It must have undergone a change in direction with zero acceleration
- Straight line through origin
- Straight line with negative slope
- Parabola opening upwards
- Parabola opening downwards
- Constant net force
- Constant rate of change of velocity
- Equal distances covered in equal time intervals
- Straight-line velocity-time graph
- Velocity
- Jerk
- Uniform acceleration
- Speed
- Uniform velocity
- Uniform negative acceleration
- Uniform positive acceleration
- Non-uniform acceleration
- Uniform horizontal velocity and uniform vertical acceleration
- Uniform vertical velocity and uniform horizontal acceleration
- Non-uniform acceleration in both directions
- Zero acceleration
- In the horizontal direction
- In the vertical direction
- In both horizontal and vertical directions
- Only at the start of the motion
- Speeding up
- Slowing down
- Increasing its velocity in the positive direction
- Decreasing its velocity in the positive direction
- Increasing
- Decreasing
- Constant
- Zero
- Acceleration affects only direction.
- Uniform acceleration means velocity changes, and speed is the magnitude of velocity.
- Speed cannot change at a constant rate.
- Uniform acceleration is only for objects at rest.
- Uniform velocity
- Non-uniform motion
- Uniform acceleration
- Oscillatory motion
- The initial velocity is zero
- The acceleration is zero
- The initial velocity is non-zero
- The acceleration is negative
- sn?=u+a(n?1/2)
- sn?=u+an
- sn?=u+a(n2)
- sn?=u+2an
