Difference between revisions of "Monte Carlo Calculation of Pi"
From WLCS
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'''Resources:''' | '''Resources:''' | ||
− | * [Media:PythonWhileLoops.pptx] | + | * [[Media:PythonWhileLoops.pptx]] |
* [http://openbookproject.net/thinkcs/python/english2e/ch06.html HTTLACS: Ch 6 - Iteration] | * [http://openbookproject.net/thinkcs/python/english2e/ch06.html HTTLACS: Ch 6 - Iteration] | ||
* [http://bkm.billking.io/projects/pi/ Monte Carlo Pi simulator] | * [http://bkm.billking.io/projects/pi/ Monte Carlo Pi simulator] | ||
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'''Directions:''' | '''Directions:''' | ||
+ | # import random (at the top b/c you will be generating random numbers) | ||
# Prompt the user for a number N (this will be our total number of test points) | # Prompt the user for a number N (this will be our total number of test points) | ||
# Create a variable for our '''numHits''' (this is *not* our loop counter) | # Create a variable for our '''numHits''' (this is *not* our loop counter) | ||
# Write a loop that runs N times (you should use a loop counter variable like '''count''' and avoid using '''x''' because we will use '''x''' for something else) | # Write a loop that runs N times (you should use a loop counter variable like '''count''' and avoid using '''x''' because we will use '''x''' for something else) | ||
− | ## Generate random numbers for '''x''' and '''y''' between 0 and 1.0 by using '''random.random()''' | + | ## Generate random numbers for '''x''' and '''y''' between 0 and 1.0 by using '''random.random()''' (Note: this function does not need any parameters) |
## Use the distance formula to calculate the distance from (0, 0) to (x, y) | ## Use the distance formula to calculate the distance from (0, 0) to (x, y) | ||
## Increment (Increase by 1) '''numHits''' if the distance is less than 1 | ## Increment (Increase by 1) '''numHits''' if the distance is less than 1 |
Latest revision as of 13:09, 1 February 2019
Objective:
- To become well-learned in the way of the while loop
Resources:
- Media:PythonWhileLoops.pptx
- HTTLACS: Ch 6 - Iteration
- Monte Carlo Pi simulator
- Monte Carlo Pi
- Monte Carlo method
Directions:
- import random (at the top b/c you will be generating random numbers)
- Prompt the user for a number N (this will be our total number of test points)
- Create a variable for our numHits (this is *not* our loop counter)
- Write a loop that runs N times (you should use a loop counter variable like count and avoid using x because we will use x for something else)
- Generate random numbers for x and y between 0 and 1.0 by using random.random() (Note: this function does not need any parameters)
- Use the distance formula to calculate the distance from (0, 0) to (x, y)
- Increment (Increase by 1) numHits if the distance is less than 1
- Calculate an estimate of pi
- successProbability = numHits / N
- PI = successProbability * 4
- Print out your estimate of PI