Exploring Energy Loss on a Ramp with Rolling/Sliding Ball

In summary, the conversation discusses the movement of a ball on a ramp with varying heights and speeds. It is noted that in the absence of friction, the energy of the ball is conserved and it is suggested that the ramp may move in the opposite direction of the ball due to momentum conservation. The concept is further explored in the case of a ramp with infinite mass or is anchored, resulting in a change in the direction of the force exerted on the ramp. The question of whether this is the correct explanation is also discussed.
  • #1
daniel_i_l
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Lets say you have a ball on a ramp (hight h). It rolls down to the ground and then starts moving at aconstant speed - no friction (ok don't kill me, it's not really rolling either, just sliding). Now to the point of view of someone moving at the final speed of the ball and in the same direction, let's call it v, the ball starts with hoight h and with speed -v, and at the end it has hight 0 and speed 0. Were did all the energy go?
I think that since the ramp can't have infinate mass it must go a little backwards as the ball goes forwards (momentum conservation), in the first case the ramp starts with 0 speed and then gets a little from the ball, and in the second case the ramp starts with -v and then gets more from the ball so the difference is much bigger (for example,
11^2 - 10^2 > 2^2 - 1^2). This difference in energy is equal to the energy lost by the ball. (I calculated it and it worked)
Is this the right answer? What happens if the ramp has infinate mass(theoreticly)?
Thanks.
 
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  • #2
Maybe a better question is what happens if you anchor the ramp. If the coefficient of friction between the ramp and the ground is 0 (which i think is what you're getting at), than the ramp would always move in a direction opposite the ball, less and less as the mass of the ramp increases compared to the ball. If the ramp was anchored (which I'm hoping you take as a substitute for infinite mass) the force that wants to push it backwards is still there, it just will be in the opposite direction -the ball- until that force is greater than the static coefficient of friction of the ramp (which we can consider way higher by anchoring it)
 
  • #3


Yes, your explanation is correct. The energy lost by the ball is equal to the energy gained by the ramp due to momentum conservation. This is known as the principle of conservation of energy. In the case of an infinitely massive ramp, the energy lost by the ball would still be equal to the energy gained by the ramp, but the difference in energy would be much smaller since the ramp's mass is infinitely large and therefore its speed would not change significantly. In this case, the energy would mostly be converted into heat due to friction between the ball and the ramp. This concept is known as the law of conservation of energy and it is a fundamental principle in physics.
 

Related to Exploring Energy Loss on a Ramp with Rolling/Sliding Ball

What is the purpose of exploring energy loss on a ramp with a rolling/sliding ball?

The purpose of this experiment is to understand the concept of energy loss and how it relates to the motion of a rolling/sliding ball on a ramp. By observing and measuring the energy loss, we can gain insight into the factors that affect the ball's motion and the amount of energy it loses.

What materials are needed to conduct this experiment?

The materials needed for this experiment include a ramp, a rolling/sliding ball, a measuring tape or ruler, a stopwatch or timer, and a scale to measure the mass of the ball. Optional materials may include a protractor to measure the angle of the ramp and a video camera to record the experiment.

How do you set up the experiment?

To set up the experiment, place the ramp on a flat surface and adjust the angle of the ramp using the protractor if desired. Place the ball at the top of the ramp, making sure it is stationary. Measure and record the height of the ramp, the mass of the ball, and the distance the ball travels from the bottom of the ramp. Make sure to repeat the experiment multiple times for accuracy.

What factors affect energy loss on the ramp?

There are several factors that can affect energy loss on the ramp, including the angle of the ramp, the mass and size of the ball, the surface of the ramp, and the initial height of the ball. Other factors may include air resistance, friction, and the type of material the ball is made of.

What are the potential sources of error in this experiment?

Some potential sources of error in this experiment may include human error in measuring and recording the data, variations in the surface of the ramp, and external factors such as air resistance. It is important to repeat the experiment multiple times and take the average of the results to minimize errors.

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