Fermi Questions C

Test your knowledge of various Science Olympiad events.
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Re: Fermi Questions C

Post by Justin72835 »

Unome wrote:
- Mars is around 1/2 length of the Earth. Thanks to an early post in this thread I've memorized the circumference of Earth, 4E7 meters, so Mars is 2E7 meters.
- A Mars bar is somewhat less than E1 centimeters which is equal to somewhat less than E-1 meters, dividing gives E8, but I can probably round that to E9.
Fermi Answer: 9
- A Mars bar is 9.8 centimeters. Mars has a circumference of 2134400000 centimeters. Clearly I shouldn't have rounded that extra bit.
Fermi Answer: 8
How many tennis balls are produced each year in the entire world?
- I'd say that for every tennis ball factory, a tennis ball is produced every minute. So that's about 1440 a day at each factory
- There are probably about 1000 tennis ball factories all over the world so that's 1 440 000 being produced each day
- Multiply that with 365 for each day of the year to get an answer of 525 600 000 which gives E9
Fermi Answer: 9
- Wikipedia says around 325 million tennis balls around produced each year, which gives a result of E9.
Fermi Answer: 9
How many times larger is free fall acceleration on the Sun than the acceleration of a bullet in the barrel of a gun?
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But in ourselves, that we are underlings."


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Re: Fermi Questions C

Post by Adi1008 »

Justin72835 wrote:
Unome wrote:
- Mars is around 1/2 length of the Earth. Thanks to an early post in this thread I've memorized the circumference of Earth, 4E7 meters, so Mars is 2E7 meters.
- A Mars bar is somewhat less than E1 centimeters which is equal to somewhat less than E-1 meters, dividing gives E8, but I can probably round that to E9.
Fermi Answer: 9
- A Mars bar is 9.8 centimeters. Mars has a circumference of 2134400000 centimeters. Clearly I shouldn't have rounded that extra bit.
Fermi Answer: 8
How many tennis balls are produced each year in the entire world?
- I'd say that for every tennis ball factory, a tennis ball is produced every minute. So that's about 1440 a day at each factory
- There are probably about 1000 tennis ball factories all over the world so that's 1 440 000 being produced each day
- Multiply that with 365 for each day of the year to get an answer of 525 600 000 which gives E9
Fermi Answer: 9
- Wikipedia says around 325 million tennis balls around produced each year, which gives a result of E9.
Fermi Answer: 9
How many times larger is free fall acceleration on the Sun than the acceleration of a bullet in the barrel of a gun?
The ratio we're looking for here is [math]a_{sun}/a_{gun}[/math]

The acceleration on the sun can be found using [math]\frac{GM_{sun}}{r_{sun}^2}[/math]. Let [math]G \approx 6.67 \times 10^{-11}, M \approx 1.98 \times 10^{30}, r_{sun} \approx 6.955 \times 10^8[/math]. From this, I get [math]a_{sun} \approx 2 \times 10^2[/math]

Using [math]v_f^2 - v_0^2 = 2as[/math] and assuming [math]s = 0.10, v_f = 400[/math], I get [math]a_{gun} \approx 8 \times 10^5[/math]

The ratio of these two is [math]2.5 \times 10^{-4} \therefore FA = -4[/math]
[url=http://hypertextbook.com/facts/2003/MichaelTse.shtml]Hypertextbook[/url] gives [math]a = 4.4 \times 10^5[/math]. Plugging it into [url=https://www.wolframalpha.com/input/?i=(((6.67*10%5E-11)*(1.98*10%5E30))%2F((6.955*10%5E8)%5E2))%2F(4.4*10%5E5)]Wolfram Alpha[/url] gives [math]FA = -3[/math]
My question: What's 13^81?
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Re: Fermi Questions C

Post by Justin72835 »

Adi1008 wrote:
Justin72835 wrote:
Unome wrote:
- Mars is around 1/2 length of the Earth. Thanks to an early post in this thread I've memorized the circumference of Earth, 4E7 meters, so Mars is 2E7 meters.
- A Mars bar is somewhat less than E1 centimeters which is equal to somewhat less than E-1 meters, dividing gives E8, but I can probably round that to E9.
Fermi Answer: 9
- A Mars bar is 9.8 centimeters. Mars has a circumference of 2134400000 centimeters. Clearly I shouldn't have rounded that extra bit.
Fermi Answer: 8
How many tennis balls are produced each year in the entire world?
- I'd say that for every tennis ball factory, a tennis ball is produced every minute. So that's about 1440 a day at each factory
- There are probably about 1000 tennis ball factories all over the world so that's 1 440 000 being produced each day
- Multiply that with 365 for each day of the year to get an answer of 525 600 000 which gives E9
Fermi Answer: 9
- Wikipedia says around 325 million tennis balls around produced each year, which gives a result of E9.
Fermi Answer: 9
How many times larger is free fall acceleration on the Sun than the acceleration of a bullet in the barrel of a gun?
The ratio we're looking for here is [math]a_{sun}/a_{gun}[/math]

The acceleration on the sun can be found using [math]\frac{GM_{sun}}{r_{sun}^2}[/math]. Let [math]G \approx 6.67 \times 10^{-11}, M \approx 1.98 \times 10^{30}, r_{sun} \approx 6.955 \times 10^8[/math]. From this, I get [math]a_{sun} \approx 2 \times 10^2[/math]

Using [math]v_f^2 - v_0^2 = 2as[/math] and assuming [math]s = 0.10, v_f = 400[/math], I get [math]a_{gun} \approx 8 \times 10^5[/math]

The ratio of these two is [math]2.5 \times 10^{-4} \therefore FA = -4[/math]
[url=http://hypertextbook.com/facts/2003/MichaelTse.shtml]Hypertextbook[/url] gives [math]a = 4.4 \times 10^5[/math]. Plugging it into [url=https://www.wolframalpha.com/input/?i=(((6.67*10%5E-11)*(1.98*10%5E30))%2F((6.955*10%5E8)%5E2))%2F(4.4*10%5E5)]Wolfram Alpha[/url] gives [math]FA = -3[/math]
My question: What's 13^81?
- http://imgur.com/gallery/k4Erf (this is a picture of my written response)
Fermi Answer: 91
- 13^81 = 1.6959441E+90, which gives a Fermi Answer of 90.
Fermi Answer: 90
How many dollar bills would it take to stretch from the Sun to Pluto?
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But in ourselves, that we are underlings."


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Re: Fermi Questions C

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Justin72835 wrote:How many dollar bills would it take to stretch from the Sun to Pluto?
- Assuming end to end, a dollar bill is around 1.5E-1 meters.
- Pluto orbits at like 40 AU (can't remember), 1 AU is around 1.5E13 meters, so that's around 6E14 meters. Dividing:
Fermi Answer: 15
- Pluto is 5.9E12 meters from the Sun on average. For some reason I thought a million was E8 and based my numbers of off that...
- A US dollar bill is 15.61 cm long.
- Dividing gives 3.78E13 meters.
Fermi Answer: 13
Over the course of one week, how many neutrinos interact with matter on Earth?
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Re: Fermi Questions C

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Unome wrote:
Justin72835 wrote:How many dollar bills would it take to stretch from the Sun to Pluto?
- Assuming end to end, a dollar bill is around 1.5E-1 meters.
- Pluto orbits at like 40 AU (can't remember), 1 AU is around 1.5E13 meters, so that's around 6E14 meters. Dividing:
Fermi Answer: 15
- Pluto is 5.9E12 meters from the Sun on average. For some reason I thought a million was E8 and based my numbers of off that...
- A US dollar bill is 15.61 cm long.
- Dividing gives 3.78E13 meters.
Fermi Answer: 13
Over the course of one week, how many neutrinos interact with matter on Earth?
Unfortunately, I don't have the solar neutrino flux memorized. Luckily, however, there's a way to figure it out theoretically. The proton-proton chain in the Sun is the dominant nuclear reaction. In the Sun, the majority of the energy is released through PP1 (as opposed to PP2 or PP3), which releases 26.2 MeV. [math]26.2 MeV \approx 4 \times 10^{-12} J[/math]. This is the amount of "energy" released during one reaction. I know from prior Astronomy knowledge that 2 neutrinos are released per reaction and the total amount of energy the Sun emits per second (luminosity). I can set these equal to each other and then solve for the number of reactions, and then multiply by two. Then, using the inverse-square law, I can approximate the flux of neutrinos at Earth.

[math]n_{reactions}\times 4 \times 10^{-12} = 4 \times 10^{26}[/math] so [math]n_{reactions} \approx 10^{38}[/math]. Therefore, the amount of neutrinos will be [math]n_{\nu} \approx 2 \times 10^{38}[/math]

Now, using the inverse square law: the flux at Earth will be about [math]\frac{n_{\nu}}{4\pi\times (1.5 \times 10^{11})^2}[/math]. [math]4\pi\times 2.25\approx 25[/math]. [math]\frac{2\times 10^{38}}{25\times 10^{22}} = 8\times 10^{14}[/math]. This is the solar neutrino flux, in meters, at the distance from Earth

Now, I multiply this by the cross sectional area of Earth. I know that the radius of the Earth is ~6370000 m. [math]\pi \times (10^7)^2 \approx 3 \times 10^{14}[/math]. The product is approximately [math]10^{29}[/math]

There are roughly [math]10^6[/math] seconds in a week. [math]10^6 \times 10^{29} = 10^{35} \therefore FA = 35[/math]
The flux is about [math]7 \times 10^14 \nu \times m^{-2} \times s^{-1}[/math], so the Fermi Answer is still 35
How many 2x2 LEGO bricks would you need to cover all of Texas?
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Re: Fermi Questions C

Post by NeilMehta »

A 2x2 Lego brick is about 1cm x 1cm, or 1 cm^3
One km^2 of this has e10 bricks 
I'm taking a guess and saying Texas is just about 400x400km, so e5 km^2
That means we have about e15
Answer: 15
Brick area = 1.2324 cm^2
Texas area: 268597 mi^2=6.957*10^15 cm^2
Dividing gives 5.645*10^15
Actual answer=16
How many grains of sand would it take to fill the Gulf of Mexico?
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Re: Fermi Questions C

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To fill a liter of sand you would need approximately 1,000,000 grains of sand. So that would mean that a cubic meter holds 1e9 grains of sand. The length of the Gulf of Mexico is about 1,000 km, which would give an area of 1,000,000 square kilometers. The depth of the Gulf is around 2 or 3 kilometers so I'll round that to 1 kilometer. This makes the volume of the Gulf of Mexico 1,000,000 cubic kilometers. Using dimensional analysis:
1e9 (grains in a cubic meter) * 1e9 (cubic meters in a cubic kilometer) * 1e6 (volume of the Gulf of Mexico) = 1e24

Fermi Answer: 24
The actual volume of the Gulf of Mexico is 2.5 million cubic kilometers, while the number of grains of sand in a cubic meter is 8 billion, depending on the size of the grains. Using dimensional analysis:
8e9 (grains in a cubic meter) * 1e9 (cubic meters in a cubic kilometer) * 2.5e6 (volume of the Gulf of Mexico) = 2e25

Fermi Answer: 25
How long would it take for an ant to travel from Paris, France to Beijing, China?
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Re: Fermi Questions C

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- Estimating ant speed at 5E-2 meters per second
- The distance from Paris to Beijing (I'll assume great circle distance, since you didn't specify) is probably around E7 meters. Dividing to get the time in seconds,
Fermi Answer: 9
- Looks like 5 cm per second is a good estimate (based on [url=http://www.theincredibleant.com/ant-how/how-fast-are-ants]this source[/url]).
- The distance between the Charles deg Gaulle and Beijing International airports is 8212 km.
- This works out to around 1.6E8 seconds.
Fermi Answer: 8
How many posts on scioly.org, as of the June 2008 forums, contain the word "microcontroller"?
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Re: Fermi Questions C

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Unome wrote:
- Estimating ant speed at 5E-2 meters per second
- The distance from Paris to Beijing (I'll assume great circle distance, since you didn't specify) is probably around E7 meters. Dividing to get the time in seconds,
Fermi Answer: 9
- Looks like 5 cm per second is a good estimate (based on [url=http://www.theincredibleant.com/ant-how/how-fast-are-ants]this source[/url]).
- The distance between the Charles deg Gaulle and Beijing International airports is 8212 km.
- This works out to around 1.6E8 seconds.
Fermi Answer: 8
How many posts on scioly.org, as of the June 2008 forums, contain the word "microcontroller"?
I have no idea, honestly. Microcontrollers are an important part of events involving electronics, such as Electric Vehicle. I feel like there should be more than 50 posts with that word, but less than 500. Fermi answer of 2
Doing searches on the forums, I find:
2009: 16 posts
2010: 2 posts
2011: 2 posts
2012: 8 posts
2013: 2 posts
2014: 4 posts
2015: 1 post
2016: 52 posts (!!!) probably solely because of Electric Vehicle
2017: 4 posts
[b]Total: 91[/b]

Fermi answer: 2!!!
How far could a cheetah run (at top speed, assuming it doesn't get tired), in picometers, in the time since the Big Bang?
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Re: Fermi Questions C

Post by Unome »

Adi1008 wrote:How far could a cheetah run (at top speed, assuming it doesn't get tired), in picometers, in the time since the Big Bang?
By the way, with my neutrino question I was going for the number of times a neutrino actually interacts with matter in the Earth, rather than the number of neutrinos that pass through.
- E2 km/hour, which is E17 picometers per hour.
- The universe is 1.3E10 years old.
- 365*24 is a little less than E3 hours per year, so that makes E13 hours (yay convenient canceling!)
Fermi Answer: 30
- A cheetah runs at around 115 km/hour
- Using the age of the universe, 13.8 billions years (converted to hours), we get 1.39E16 kilometers. Converting to picometers, that's 1.39E31.
Fermi Answer: 31
How long would it take for the volume of the Sun (of water) to pour down Niagara Falls? (both the Canadian and American sides combined)
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