The minimum speed for a ball rolling down an incline occurs near the top. Gravity will speed the ball up as it travels down.
If they are both solid, and the incline is the same, the rate of acceleration will be the same.
momentum As the speed of a rolling ball is increasing, the increasing speed is accompanied by: a. increasing momentum.
yes it does. i just did the experiment.
A ball rolling at a constant speed at the same rate of speed on a still surface.
At the top, since potential energy is referred to an objects location, the highest the object the highest its potential energy.
If they are both solid, and the incline is the same, the rate of acceleration will be the same.
If they are both solid, and the incline is the same, the rate of acceleration will be the same.
momentum As the speed of a rolling ball is increasing, the increasing speed is accompanied by: a. increasing momentum.
yes it does. i just did the experiment.
He developed a hypothesis for the motion of physics by using a ball and an incline. He found that when a ball rolls down an incline, it accelerates towards the bottom of the incline. When a ball rolls up an incline, it decelerates. And when a ball is on a flat surface, it moves at a constant speed because a force acts downwards in the vertical direction. As Newton discovered after Galileo died, this particular force is gravity. It is also the force responsible for the acceleration and deceleration of a ball while rolling down and rolling up an incline, respectively.On a double incline, Galileo found that a ball returns to the same vertical height that it was released from. (see what a double incline is, and you'll get it)Also, he found that neither the angle nor the total distance travelled of a rolling ball matters, only vertical height.So in contrast to Aristotle's previous theory that the natural state of objects is at rest, Galileo discovered that the proper state of motion is not at rest, but to continue in its current state of motion. Galileo's experiments with the motion of balls is the basis for Newton's law of inertia (or his first law of motion).
Yes it would. Speed will depend on Weight of the ball, Incline angle, Friction, and air pressure.
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.
yes
Yes, if it is rolling at a constant speed it has potential energy.
Since a ball is a sphere the motion it makes is rolling. The rolling happens on the ground and in the air.
A ball rolling at a constant speed at the same rate of speed on a still surface.
At the top, since potential energy is referred to an objects location, the highest the object the highest its potential energy.