(python) Write the program based on the details in the picture and the additional details below. Since this is a simulation, we will not prompt the user for inputs. Any inputs will result in a loss of points. To determine the radius of the circle, add together your Birth Month and Day. So my radius would be 41. NOTE: this radius will be used for all of the simulation trials. Once you have the radius, implement the Monte Carlo simulation with 500,000 random (x,y) points (remember to make them floats) and display the results of 10 trials. Each trial does another simulation of 500,000 random (x,y). Display the following for each trial: Trial number Number of hits inside the circle from the simulation The percentage of hits (Only want 2 decimal places) At the end you must display the average percentage for all 10 trials. Bonus Option: Create an 11th trial and create a graphic representation of the simulation. Draw a square and corresponding circle (you do not need the grid) Draw each (x,y) point on the square/circle I would recommend scaling the square, circle and (x,y) points accordingly for better visuals.
(python)
Write the program based on the details in the picture and the additional details below.
Since this is a simulation, we will not prompt the user for inputs. Any inputs will result in a loss of points. To determine the radius of the circle, add together your Birth Month and Day. So my radius would be 41.
NOTE: this radius will be used for all of the simulation trials.
Once you have the radius, implement the Monte Carlo simulation with 500,000 random (x,y) points (remember to make them floats) and display the results of 10 trials. Each trial does another simulation of 500,000 random (x,y).
Display the following for each trial:
- Trial number
- Number of hits inside the circle from the simulation
- The percentage of hits (Only want 2 decimal places)
At the end you must display the average percentage for all 10 trials.
Bonus Option:
Create an 11th trial and create a graphic representation of the simulation.
- Draw a square and corresponding circle (you do not need the grid)
- Draw each (x,y) point on the square/circle
I would recommend scaling the square, circle and (x,y) points accordingly for better visuals.
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