increasing
If you roll a ball up a hill it undergoes negative upward and positive downward acceleration.
The answer will depend on the shape of the slope, and the trajectory that the ball follows.
A ball rolls down hill because there is no force preventing it from moving. If there was an object in the way, that would be the force that counters the movement/roll.
After being released, a ball thrown straight down from a bridge would have an acceleration of
The slope represents a change in velocity, or acceleration. The acceleration is the gradient (steepness) of the line. A larger gradient means faster acceleration. if the gradient points down and is negative then it represents deceleration.
If you roll a ball up a hill it undergoes negative upward and positive downward acceleration.
It has a negative (downward) slope.
The answer will depend on the shape of the slope, and the trajectory that the ball follows.
Negative positive (apex)
The acceleration of a tennis ball rolling down an incline depends with two factors. The force that is applied to the tennis ball and the mass of the tennis ball will determine its acceleration.
Soup just draaaaiiiiins its way down, slowly, while a ball of catfood rolls down the slope quite quickly.
a(child acceleration)=g(gravitational acceleration)*sin25=4.144 m/s2
Strictly speaking, it moves with negative acceleration. The forces of friction and air resistance both act to slow the ball down. If the lane were long enough, the ball would eventually come to a complete stop.
A ball rolls down hill because there is no force preventing it from moving. If there was an object in the way, that would be the force that counters the movement/roll.
Both of them
how does increasing the height of a ramp affect how far a ball rolls down the ramp
acceleration is the slope of the v t graph... so the acceleration is constant and negative. In other words, the object is slowing down at a constant rate.