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2.31 inches on a ruler

28/10/2021 Client: muhammad11 Deadline: 2 Day

Introduction Joaquin

In this experiment, we wanted to know if we can measure circular objects using basic measuring tools, and by using some sort of carbon trail to identify length to see how they relate with the value of pi. Some of us used powder to compensate for the lack of carbon paper, while some of us used measuring tape to measure the length of how far the object rolled. The point here was to learn about uncertainty and measurements to see how the lengths correlate with the value of pi. We expect to see the values create a slope on a graph that is or close to the value of pi.

Procedure : Ivan

INSERT SKETCH HERE

In the following section, we will cover our procedures and how we collected our data. Our goal was to measure the trace (distance traveled when spinning in a forward direction) of eight circular objects, two per person, in an effort to measure a value of PI.

To collect data for the Penny we marked the coin with a sharpie on the circumference, placed the mark against paper and marked the starting with a pencil. Upon readying the penny, we rolled the object and marked the end point with a black mark against the paper. The roll was in a forward motion, away from the origin. We wanted to account for the scenario where the trace was longer than the entirety of the measuring device. To account for this, we marked the point to which the device reaches with a pencil and moved the device to that point. We then added the measurements at the end of the full trace and established our uncertainties, which included the uncertainty of the measurements, the thickness of a sharpie line, thickness of pencil line, and the slippage on the roll. We repeated these set of a rules to find the trace of a quarter, using an engineering ruler as the measuring device of choice.

The next two objects we measured were one 2.5lb dumbbell and a nickel. We placed a garbage bag on a table and poured flour on top of the garbage bag to mimic the behavior of a carbon paper that would show the trace of the object. We marked a starting point at one end of the table and rolled the object until it stopped. We used a standard measuring tape to measure the trace, this device permitted us to measure the entire trace without needing to separate the measurements—unlike the use of a traditional engineering ruler for the quarter and penny. For the uncertainties of these two objects, we chose to account for coin spillage, the measuring device’s unit capacity (0.125 inches), and the act of stopping the circular object. The only difference in uncertainties for the two objects was due to the dumbbell having more mass than the nickel, allowing it to fall on its own.

For the next two circular objects, we used a disk ion battery and a half dollar coin. We used a similar method of pouring powder over a table to compensate for the carbon paper effect. The measuring device of choice was a digital caliper to measure the diameter of the object and a 16ft pullout measuring tape to measuring the trace of the objects. (INSERT SOMETHING ABOUT UNCERTAINTIES)

The final two objects we measured were the cap of a nuts container and a cylindrical cup (Starbucks cup). Flour was used to simulate the effects of carbon paper, similar to the previous objects. We marked the starting points with a sharpie, rolled the objects, and marked the ending points. The measuring device of choice was a ruler to measure the trace and measure the diameter for each object. The uncertainties that we accounted for these two objects included the thickness and smoothness of the flour, the instant of catching where the circular objects where they stopped, the slippery surface (granite kitchen island), and the ruler not being long enough.

An iPhone was used in the process of recording all eight of our objects being rolled. This is how we collected our data which will be presented in the following section.

Data :Yan

Yan:

Cap of the Nuts Container

Diameter - 12.5cm±.1cm - 0.8% Uncertainty

Starbucks Cup

Diameter - 9.1cm±.1cm - 1.1% Uncertainty

Trail #

Length of Trace

# of Turns

Circumference

Deviation

Length of Trace

# of Turns

Circumference

Deviation

1

113.7±0.3cm

3

37.9±0.1cm

1.0 cm

74.1±0.5 cm

3

24.7±0.17 cm

-0.9 cm

2

109.5±0.3 cm

3

36.5±0.1cm

-0.4 cm

74.7±0.5 cm

3

24.9±0.17 cm

-0.7 cm

3

105.6±0.3 cm

3

35.2±0.1 cm

-1.7 cm

76.8±0.5 cm

3

25.6±0.17 cm

0 cm

4

113.1±0.3 cm

3

37.7±0.1 cm

0.8 cm

77.1±0.5 cm

3

25.7±0.17 cm

0.1 cm

5

110.1±0.3 cm

3

36.7±0.1 cm

-0.2 cm

75.6±0.5 cm

3

25.2±0.17 cm

-0.4 cm

6

110.7±0.3 cm

3

36.9±0.1 cm

0 cm

79.2±0.5 cm

3

26.4±0.17 cm

0.8 cm

7

112.5±0.3 cm

3

37.5±0.1 cm

0.6 cm

80.1±0.5 cm

3

26.7±0.17 cm

1.1 cm

Std. Dev.

0.85cm

Std. Dev.

0.69cm

Percent Dev.

2.31%

Percent Dev.

2.7%

Mean Diameter

12.5cm±.1cm

Mean Circumference

36.9±0.1 cm

Mean Diameter

9.1cm±.1cm

Mean Circumference

25.6±0.17 cm

Uncertainty:

· Since I measured both of them on the top of the flour instead of carbon paper, the thickness and smoothness of the flour is one of the uncertainties.

· After roll a complete revolution, the instant of catching where it stops may be different each time

· I used the cap of the nut container and a cup, sometimes it is hard to see where it stops because the marking point on the object is facing to the ground

· I am measuring them on the island in the kitchen, the surface may be slippery after putting a layer of flour on the top. And this may cause the object to slide somehow instead of rolling.

· My ruler is not long enough. Every time when I try to continue with the previous measurement, I may not match exactly to where it was left.

· The reason I choose 0.3 cm as an uncertainty variable for the cap of the nut container is every time I measured the length of a full cycle, it always fell between that range. The reason is I marked the start point with the figure tip. And the thickness of the figure tip mark is around 0.3 cm.

· For the cup, I choose 0.5 cm as an uncertainty variable because on the top of the thickness of finger tip, the thickness of the label “Starbucks Coffee” is about 0.2 cm thick because I used that label as a beginning point to roll.

Daniel:

Penny

Diameter - 1.8cm±.1cm - 5.56% Uncertainty

Quarter

Diameter - 2.35±.1cm - 4.26% Uncertainty

Trail #

Length of Trace

# of Turns

Circumference

Deviation

Length of Trace

# of Turns

Circumference

Deviation

1

17.65cm±0.4cm

3

5.88cm±0.13cm

-0.118cm

22.55cm±0.5cm

3

7.51cm±0..16cm

-0.08cm

2

18.0cm±0.5cm

3

6.0cm±0.16cm

+0.002cm

22.75cm±0.6cm

3

7.58cm±0.2cm

-0.01cm

3

12.0cm±0.4cm

2

6.0cm±0.13cm

+0.002cm

22.75cm±0.4cm

3

7.58cm±0.13cm

-0.01cm

4

12.15cm±0.5cm

2

6.08cm±0.16cm

+0.082cm

15.25cm±0.6cm

2

7.62cm±0.2cm

+0.03cm

5

18.0cm±0.4cm

3

6.0cm±0.13cm

+0.002cm

23.00cm±0.7cm

3

7.67cm±0.23cm

+0.08cm

6

17.95cm±0.5cm

3

5.98cm±0.16cm

-0.018cm

22.80cm±0.5cm

3

7.6cm±0.16cm

+0.01cm

7

18.15cm±0.6cm

3

6.05cm±0.2cm

+0.052cm

22.80cm±0.5cm

3

7.6cm±0.16cm

+0.01cm

Std. Dev.

+0.058cm

Std. Dev.

+0.034cm

Percent Dev.

+0.96%

Percent Dev.

+0.44%

Mean Diameter

1.8cm±.1cm

Mean Circumference

6.0cm±.0057cm

Mean Diameter

2.35cm±.1cm

Mean Circumference

7.59cm±.004cm

Uncertainties:

· Penny: The uncertainty comes from coin slippage (I calculated this from estimating the rotational slippage). There was an additional 0.1cm from the ruler on each trail, and 0.2 cm comes from the thickness of the mark made on the penny.

· Quarter: The uncertainty comes from coin slippage (I calculated this from estimating the rotational slippage). There was an additional 0.1cm from the ruler on each trail, and 0.3 cm comes from the thickness of the mark made on the penny.

Ivan:

Nickel

Diameter - 2.1cm±.1cm - ___ Uncertainty

1.25 dumbbell weight

Diameter – 12.7±.1cm - __ uncertainty

Trail #

Length of Trace

# of Turns

Circumference

Deviation

Length of Trace

# of Turns

Circumference

Deviation

1

19.71±0.4cm

3

6.57 cm±0.13cm

-0.03cm

80.1±0.5cm

3

40.01 cm±0.17cm

+0.31cm

2

19.86±0.4cm

3

6.62 cm±0.13cm

-0.02cm

81.6±0.5cm

3

39.51cm±0.17cm

-0.19cm

3

19.83±0.4cm

3

6.61 cm±0.13cm

+0.01cm

84.6±0.5cm

3

39.80 cm±0.17cm

+0.1cm

4

19.74±0.4cm

3

6.58 cm±0.13cm

-0.02m

78.3±0.5cm

3

39.92 cm±0.17cm

+0.22cm

5

19.89±0.4cm

3

6.63 cm±0.13cm

+0.03m

83.7±0.5cm

3

38.95 cm±0.17cm

-0.75cm

6

19.77±0.4cm

3

6.59 cm±0.13cm

-0.01cm

82.2±0.5cm

3

39.79 cm±0.17cm

+0.09cm

7

19.8±0.4cm

3

6.6 cm±0.13cm

0.00cm

84.9±0.5cm

3

39.88cm±0.17cm

+0.18cm

Std. Dev.

0.02cm

Std. Dev.

0.33cm

Percent Dev.

0.30%

Percent Dev.

0.84%

Mean Diameter

2.1±0.1cm

Mean Circumference

6.6±0.13cm

Mean Diameter

12.7±015cm

Mean Circumference

39.7±0.17cm

Uncertainties:

For my uncertainties, I accounted for 0.2 cm for coin slippage, similar to Daniel. I used a ruler which accounts for 0.3 cm uncertainty, which goes down to 0.125 inches and I converted this to cm. There is a final uncertainty added of 0.3 cm which is accounting to stop the nickel. For the weight, I used the same logic except it was heavier and there was no slippage and I did not have to stop it because it was much heavier than the nickel and would fall much more easily after three turns.

Joaquin:

Watch Ion Battery

Diameter - 2.00 ±0.01 cm

Half Dollar Coin

Diameter - 3.06 ±0.01 cm

Trail #

Length of Trace

# of Turns

Circumference

Deviation

Length of Trace

# of Turns

Circumference

Deviation

1

62.83 ±0.01 cm

10

6.28 ±0.001 cm

0.00cm

76.88 ±0.01 cm

8

9.61 ±0.001 cm

+0.06cm

2

25.28 cm ±0.01 cm

4

6.32 ±0.01 cm

+0.04cm

68.04 cm ±0.01 cm

7

9.72 ±0.01 cm

+0.17cm

3

37.56 cm ±0.01 cm

6

6.26 ±0.01 cm

-0.02cm

46.25 cm ±0.01 cm

5

9.25 ±0.01 cm

-0.3cm

4

18.81 cm ±0.01 cm

3

6.27 ±0.01 cm

-0.01cm

74.48 cm ±0.01 cm

8

9.31 ±0.01 cm

-0.24cm

5

25.2 cm ±0.01 cm

4

6.30 ±0.01 cm

+0.02cm

88.38 cm ±0.01 cm

9

9.82 ±0.01 cm

+0.27cm

6

37.74 cm ±0.01 cm

6

6.29 ±0.01 cm

+0.01cm

38.48 cm ±0.01 cm

4

9.62 ±0.01 cm

+0.07cm

7

18.75 cm ±0.01 cm

3

6.25 ±0.01 cm

-0.03cm

47.85 cn ±0.01 cm

5

9.57 ±0.01 cm

+0.02cm

Std. Dev.

0.022cm

Std. Dev.

0.192cm

Percent Dev.

.035%

Percent Dev.

2.01%

Mean Diameter

2.00 ±0.01 cm

Mean Circumference

6.28 cm±0.01 cm

Mean Diameter

3.06 ±0.01 cm

Mean Circumference

9.55 cm±0.01 cm

Uncertainty:

Uncertainty was calculated by looking at the smallest interval of my measuring device and divided it by 10.

Analysis : Barnabe

Conclusion - dan

During this experiment we were successful in measuring pi via finding the circumference of a round object at comparing it to the measured diameter. The slopes of our graphs show a number averaging within a deviation of ____ to the actual value of pi. Taking in account the known and analysed uncertainties we were well within acceptable boundaries of producing a measured pi value instead of using a known table value. The methods of this experiment ranged from using powered tail traces to manually rolling and marking revolutions on a paper. This range of methods gave us more sets of data to reinforce the values we calculated.

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