increasing
The speed of the ball will change as it rolls down an irregular slope due to the varying slope angles and surface conditions affecting its motion. The acceleration of the ball will also change accordingly as it encounters different levels of resistance and gravitational forces from the irregular slope.
The speed of the ball increases as it rolls down the hill due to the acceleration caused by gravity. The ball will accelerate at a constant rate as it moves downhill, increasing its speed until it reaches the bottom of the hill.
A ball rolls down a slope due to the force of gravity acting upon it. Gravity pulls the ball downwards and causes it to accelerate as it moves down the slope. Friction between the ball and the slope also plays a role in determining the speed and motion of the ball.
Not necessarily. If it's rolling in a straight line on a smooth and level floor, then the acceleration is as good as zero. But if the ball is rolling up a hill, or down a hill, or around the groove in a roulette wheel, or through grass and slowing down, then there's substantial acceleration.
A ball rolls down a hill due to the force of gravity pulling it downward. Gravity is a natural force that attracts objects towards each other, causing the ball to move in the direction of the slope.
The speed of the ball will change as it rolls down an irregular slope due to the varying slope angles and surface conditions affecting its motion. The acceleration of the ball will also change accordingly as it encounters different levels of resistance and gravitational forces from the irregular slope.
The speed of the ball increases as it rolls down the hill due to the acceleration caused by gravity. The ball will accelerate at a constant rate as it moves downhill, increasing its speed until it reaches the bottom of the hill.
It has a negative (downward) slope.
A ball rolls down a slope due to the force of gravity acting upon it. Gravity pulls the ball downwards and causes it to accelerate as it moves down the slope. Friction between the ball and the slope also plays a role in determining the speed and motion of the ball.
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.
Not necessarily. If it's rolling in a straight line on a smooth and level floor, then the acceleration is as good as zero. But if the ball is rolling up a hill, or down a hill, or around the groove in a roulette wheel, or through grass and slowing down, then there's substantial acceleration.
A ball rolls down a hill due to the force of gravity pulling it downward. Gravity is a natural force that attracts objects towards each other, causing the ball to move in the direction of the slope.
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.
The ball has the potential to move down the slope when released.