Inclined plane, ball filled with honey.

In summary, the experiment discussed involves a ball with a steel ball inside and honey to slow down the steel ball. This results in the steel ball moving to the top side when the ball rolls, due to the change in center of mass. The "trick" is that humans are accustomed to uniform density in balls, causing a misconception about how they should behave. This concept can also be observed with a water bottle filled halfway and rolled on its side.
  • #1
malinowo
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0
For my classes I want to prepare this experiment http://fizyczny.net/viewtopic.php?t=28422 But of course I need to collect some data and explain why is it so. I thought about gravity and torque and that ball inside works as lever arm. Do you have any ideas?
 
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  • #2
This is actually quiet easy to explain. It would be easier with some diagrams I am not going to bother with but should not be difficult to understand.

To see the construction here is the video:

Just picture the ball on an inclined plane (not too steep). If, even without the honey, you put the steel ball above the plumb line of the contact point of the outside ball on the plane it will lift upwards. If the steel ball was attached to the inside of the larger ball it simply would not role down the plane at all. The honey merely slows the steel ball down enough that whenever the ball rolls it move the steel ball to the top side, which then takes longer to catch up because of the honey slowing it down. Once the steel ball moves below the center point it rolls again, which puts the steel ball back at the top side.
 
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  • #3
The "trick" is that humans are so used to seeing balls that have a uniform density, that we think that all balls should behave like them. You can think of a round cylinder rolling as the infinite limit of a polygonal cylinder that keeps falling over. Take a cube for instance. Will a cube block roll down an incline? Only if the incline is steep enough so that the block's center of mass extends beyond the contact footprint of the block on the plane. The honey inside the ball has a way of sticking the center of mass behind the contact point so that it does not fall over. In reality, this is no more magic than sticking a block on a not-so-steep incline and saying "look, it doesn't roll".

Incidentally, you can play around with this concept in a much easier way. Get a round water bottle and fill it only half way. Place it on its side and let it roll. It will wobble as it rolls for the same reason. The water sloshes back and forth, changing the center of mass.
 

1. What is an inclined plane?

An inclined plane is a flat surface that is at an angle to the ground. It allows objects to be moved from one height to another with less force than if they were to be lifted straight up.

2. How does an inclined plane work?

An inclined plane works by reducing the amount of force needed to move an object to a higher height. This is achieved by spreading the force needed over a longer distance, making it easier to move the object.

3. What is the purpose of using a ball filled with honey on an inclined plane?

The purpose of using a ball filled with honey on an inclined plane is to demonstrate how the honey inside the ball reacts to the angle of the inclined plane. This can help to explain concepts such as gravity and friction.

4. How does the honey inside the ball behave on an inclined plane?

The honey inside the ball will flow towards the lowest point of the ball due to gravity. As the inclined plane becomes steeper, the honey will flow faster, and if it becomes too steep, the honey may overflow from the top of the ball.

5. What other factors may affect the behavior of the honey on an inclined plane?

Apart from the angle of the inclined plane, other factors such as the viscosity of the honey, the shape and size of the ball, and the material of the inclined plane can also affect the behavior of the honey. Additionally, external forces such as air resistance and surface roughness can also impact the movement of the honey on the inclined plane.

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