Calculate Radius of Rolling Paper Cup

In summary, the radius of the circle made by the rolling of a paper cup can be calculated using the given dimensions of the cup. The circumference of the top and bottom of the cup can be used to find the radius, which will be the same for both circles. The height of the cup must also be taken into account when calculating the radius. A formula is provided to calculate the radii, and it is suggested that experimenting with paper cups could be a good exercise for geometry students.
  • #1
quasi426
208
0
Given a conic geometry, like that of a paper cup. What is the radius of a circle made by the rolling made by the cup. It actually makes two circles so either radius as long as it is specified will do.

Given:

The cup's large radius = R
The cup's small radius = r
The length of the cup or height = h


So far I know that the circumference of the circle made when the cup rolls is inversely proportional to the slope of the cup:
Circumference ~ 1/slope or h/(R-r)
 
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  • #2
When you are "given" the dimensions of the cup, you are given the radius of the top and bottom of the cup (or can calculate them from the information you have). From that you can calculate the circumference of the top and bottom. Since the cup rolls the same degrees on both of those the circles that the two parts must be will have circumferences the same multiple if the radius you are looking for.
 
  • #3
I guess I just don't know how many turns the cup will make in one complete circle.
 
  • #4
What you have to get is the height of the cone by extending the small end to a point. Let a=the addition to the height. then a/r=(a+h)/R. Solve for a, then the radii you want are a and a+h.
 
  • #5
I get

a= (rh/R)/(1-r/R)

That seems right. As the height of the cup gets larger so does the turn ,which makes sense since the turn should be inversely proportional to the slope (R-r)/h


Thanks.
 
  • #6
I made a mistake in my previous note. After you get a as described, the radii are given by
r1=sqrt(a2+r2)
r2=(a+h)r1/a
 
  • #7
have you tried rolling a paper cup to confirm the theoritical values?
 
  • #8
When I was in junior high, the math teacher introduced us to pi by having us cut out circles from cardboard and measure the diameters and the circumferences. We quickly learned that the ratio was approximately independent of the size of the circle (one smart aleck drew them on paper and knowing about pi, calculated the circumferences - the teacher was annoyed). In any case we quickly got the idea. I put your question about experimenting with paper cups in the same category. It might be a good exercise for a high student geometry student, but I don't think it is necessary here.
 

1. What is the formula for calculating the radius of a rolling paper cup?

The formula for calculating the radius of a rolling paper cup is r = (2πh)/n, where r is the radius, h is the height of the cup, and n is the number of rotations.

2. How do you measure the height of a paper cup for this calculation?

The height of a paper cup can be measured using a ruler or any other measuring tool. Place the cup on a flat surface and measure the distance from the base to the top of the cup.

3. Can this formula be used for any size of paper cup?

Yes, this formula can be used for any size of paper cup as long as the height and number of rotations are accurately measured.

4. What unit of measurement should be used for the height and radius in this calculation?

The unit of measurement used for the height and radius should be consistent. It can be in centimeters, inches, or any other unit as long as it is the same for both measurements.

5. Why is it important to calculate the radius of a rolling paper cup?

Calculating the radius of a rolling paper cup can help in understanding its stability and how it will roll on a surface. This information can be useful for designing and improving the functionality of paper cups.

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