What happens to the speed of the ball as it rolls down the ramp does it increase decrease or remain constant?
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What happens to the speed of the ball as it rolls down the ramp does it increase decrease or remain constant?
As the ball rolls down the ramp, the speed increases. This can be inferred because it is known that the ball takes the same amount of time to roll down each section of the ramp.
What did Galileo’s ramp experiment prove?
One of his greatest contributions involved accurately measuring the effect of gravity on free falling bodies. Galileo hypothesized that a falling object would gain equal amounts of velocity in equal amounts of time, which meant that its speed increased at a constant rate as it fell.
Does the ball accelerate down the ramp?
Forces are vectors and have a direction and a magnitude. The force of gravity points straight down, but a ball rolling down a ramp doesn’t go straight down, it follows the ramp. Therefore, only the component of the gravitational force which points along the direction of the ball’s motion can accelerate the ball.
How does the height of a ramp affect the distance a ball rolls?
1. Increasing the height of the ramp will increase the distance the ball rolls.
How does the height of the ramp affect the speed of the ball?
Variables: The height of the ramp will change the speed and distance the ball rolls because when the ramp is higher, the ball will be higher. The higher the ball is the more gravitational potential energy it has; therefore more energy will be transferred to kinetic energy.
How does the length of a ramp affect speed?
So the higher the ramp is, the more gravitational potential energy there will be to be converted into kinetic energy, resulting in more kinetic energy making the car travel at a faster speed.
What was the result of Galileo’s experiment?
One result of the experiment surprised Galileo, and one surprises us. Galileo found that the heavy ball hit the ground first, but only by a little bit. Except for a small difference caused by air resistance, both balls reached nearly the same speed. And that surprised him.
What did Galileo propose about the motion of heavy and light objects?
For thousands of years, people erroneously thought that heavier objects fell faster than lighter ones. It was not until Galileo studied the motion of falling objects that it became clear that, in the absence of air resistance, gravity causes all objects to fall at the same rate.
How does the angle of the ramp affect the speed of an object?
The rate at which the object slides down the surface is dependent upon how tilted the surface is; the greater the tilt of the surface, the faster the rate at which the object will slide down it. In physics, a tilted surface is called an inclined plane.
How does the height of the ramp affect the stopping distance?
We found that the higher the ramp, and therefore the greater the potential energy, the greater the distance the cart went before stopping.
Why does higher ramp increase speed?
Because the higher the ramp the more Gravitational Potential Energy(GPE), the more GPE the more kinetic energy converted and the car faster it will go. So that as the ramp increases, the velocity will also increase.
What can you say about Galileo’s view of motion?
Galileo was correct in his statement that objects in motion tend to stay in motion, but he seemed to believe that inertial motion moved equidistant from the center of the Earth. Descartes was the first one to correctly state that an object in motion continues its motion in a straight line.
How did Galileo prove that all objects fall at the same rate?
Galileo used inclined planes for his experiment to slow the acceleration enough so that the elapsed time could be measured. The ball was allowed to roll a known distance down the ramp, and the time taken for the ball to move the known distance was measured. The time was measured using a water clock.
How can we explain Galileo’s experiment?
By watching the motion of objects on an inclined plane Galileo understood that objects move with a constant speed when no force acts on them. He assumed a simple example that when a marble rolls down an inclined plane, its velocity increases.
How does the height of a ramp affect the distance of an object?