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)

turtle.title("Solar System")

turtle.Screen().bgcolor("black")

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)

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):

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):

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, "pink")

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()