Making a solar system using python

July 11, 2015 / Rishi Giri (DotJS)

Recently I tried learning about turtle module of python, so that I can make some graphics using it.
Though I’m not really interested in turtle module but I made something like ‘solar’ system.
Check it out :

NOTE : If you find any problem related to modules. Try:

sudo pip install math

sudo pip install turtle

Download the code : Solar System
OR
Have a look on the code :


import turtle
import math

class SolarSystem:
    def __init__(self, width, height):
        self.thesun = None
        self.planets = []
        self.ssturtle = turtle.Turtle()
        self.ssturtle.hideturtle()
        self.ssscreen = turtle.Screen()
        self.ssscreen.setworldcoordinates(-width/2.0,-height/2.0,width/2.0,height/2.0)
        self.ssscreen.tracer(50)

    def addPlanet(self, aplanet):
        self.planets.append(aplanet)

    def addSun(self, asun):
        self.thesun = asun

    def showPlanets(self):
        for aplanet in self.planets:
            print(aplanet)

    def freeze(self):
        self.ssscreen.exitonclick()

    def movePlanets(self):
        G = .1
        dt = .001

        for p in self.planets:   
           p.moveTo(p.getXPos() + dt * p.getXVel(), p.getYPos() + dt * p.getYVel())

           rx = self.thesun.getXPos() - p.getXPos()
           ry = self.thesun.getYPos() - p.getYPos()
           r = math.sqrt(rx**2 + ry**2)

           accx = G * self.thesun.getMass()*rx/r**3
           accy = G * self.thesun.getMass()*ry/r**3

           p.setXVel(p.getXVel() + dt * accx)

           p.setYVel(p.getYVel() + dt * accy)

class Sun:
   def __init__(self, iname, irad, im, itemp):
       self.name = iname
       self.radius = irad
       self.mass = im
       self.temp = itemp
       self.x = 0
       self.y = 0

       self.sturtle = turtle.Turtle()
       self.sturtle.shape("circle")
       self.sturtle.color("yellow")

   def getName(self):
       return self.name

   def getRadius(self):
       return self.radius

   def getMass(self):
       return self.mass

   def getTemperature(self):
       return self.temp

   def getVolume(self):
       v = 4.0/3 * math.pi * self.radius**3
       return v

   def getSurfaceArea(self):
       sa = 4.0 * math.pi * self.radius**2
       return sa

   def getDensity(self):
       d = self.mass / self.getVolume()
       return d

   def setName(self, newname):
       self.name = newname

   def __str__(self):
       return self.name

   def getXPos(self):
       return self.x

   def getYPos(self):
       return self.y

class Planet:

   def __init__(self, iname, irad, im, idist, ivx, ivy, ic):
       self.name = iname
       self.radius = irad
       self.mass = im
       self.distance = idist
       self.x = idist
       self.y = 0
       self.velx = ivx
       self.vely = ivy
       self.color = ic

       self.pturtle = turtle.Turtle()
       self.pturtle.up()
       self.pturtle.color(self.color)
       self.pturtle.shape("circle")
       self.pturtle.goto(self.x,self.y)
       self.pturtle.down()

   def getName(self):
       return self.name

   def getRadius(self):
       return self.radius

   def getMass(self):
       return self.mass

   def getDistance(self):
       return self.distance

   def getVolume(self):
       v = 4.0/3 * math.pi * self.radius**3
       return v

   def getSurfaceArea(self):
       sa = 4.0 * math.pi * self.radius**2
       return sa

   def getDensity(self):
       d = self.mass / self.getVolume()
       return d

   def setName(self, newname):
       self.name = newname

   def show(self):
        print(self.name)   

   def __str__(self):
       return self.name

   def moveTo(self, newx, newy):
       self.x = newx
       self.y = newy
       self.pturtle.goto(newx, newy)

   def getXPos(self):
       return self.x

   def getYPos(self):
       return self.y

   def getXVel(self):
       return self.velx

   def getYVel(self):
       return self.vely

   def setXVel(self, newvx):
       self.velx = newvx

   def setYVel(self, newvy):
       self.vely = newvy


def createSSandAnimate():
   ss = SolarSystem(2,2)    

   sun = Sun("SUN", 5000, 10, 5800)
   ss.addSun(sun)


   m = Planet("MERCURY", 19.5, 1000, .25, 0, 2, "blue")
   ss.addPlanet(m)

   m = Planet("EARTH", 47.5, 5000, 0.3, 0, 2.0, "green")
   ss.addPlanet(m)

   m = Planet("MARS", 50, 9000, 0.5, 0, 1.63, "red")
   ss.addPlanet(m)

   m = Planet("JUPITER", 100, 49000, 0.7, 0, 1, "black")
   ss.addPlanet(m)

   m = Planet("Pluto", 1, 500, 0.9, 0, .5, "orange")
   ss.addPlanet(m)

   m = Planet("Asteroid", 1, 500, 1.0, 0, .75, "cyan")
   ss.addPlanet(m)

   numTimePeriods = 20000
   for amove in range(numTimePeriods):
        ss.movePlanets()

   ss.freeze()

createSSandAnimate()
your source code goes here

Save the code as solar.py and run it via terminal/sublime text or whatever editor you use.

3 thoughts on “Making a solar system using python”

dineshramitc

July 12, 2015 at 6:33 pm

Reblogged this on Dinesh Ram Kali..

LikeLiked by 2 people

Reply
zombie

September 20, 2015 at 3:03 pm

can u add a moon to earth

LikeLike

Reply
garima

November 3, 2016 at 11:24 pm

it would be really helpful if you could add explanatory comments in the codes..only for the tricky stuff

LikeLike

Reply

Leave a comment Cancel reply