I'm having issues understanding how to simulate a situation like this: http://phet.colorado.edu/sims/density-and-buoyancy/buoyancy_en.html
The point of the program is to make a simulator - like the one in the link. I want to keep it realistic and use Python. I want to draw the simulation in Pygame.
In my program I ask for a couple of variables; the mass and the radius. The radius will be used to calculate the volume of a sphere and the mass will be used to calculate the buoyancy, gravity force and acceleration.
But the thing is, to keep everything in SI-units I ask for the radius in metre. Doing this while keeping my radius under 10cm, makes for a really small number. And when I use the Pygame module to draw a sphere at the size of 0.1m, it fails. So instead of doing that, I needed to use a bigger scale.
So here comes my main problem. How exacly should I scale the sphere? Say I wanted to define 100 pixels to be 1 metre. I would then have to multiply my radius by 100, since that would be the scale, but now that the sphere is bigger should the velocity also be multiplied by 100?
I've gotten really confused over this! Thanks for your time.
Don't know if you need to see this, anyhow.
import math class Formulas(): def __init__(self): self.pi = 3.1415926535 self.gravity = 9.82 #m/s^2 self.density_water = 1000.0 #kg/m^3 self.density_air = 1.29 #kg/m^3 self.drag_sphere = 0.47 def object_buoyancy(self, volume, medium_density): buoyancy = volume * medium_density * self.gravity #N return buoyancy def object_gravity(self, mass): gravity_force = mass * self.gravity #N return gravity_force def object_volume_sphere(self, radius): volume = 1.3333333 * self.pi * math.pow(radius, 3) #m^3 return volume def object_mass(self, density, volume): mass = volume * density #kg return mass def object_acceleration(self, gravity_force, buoyancy, mass): total_force = gravity_force - buoyancy #N acceleration = total_force / mass #m/s^2 return acceleration def object_speed(self, acceleration, time, scale): speed = acceleration * (float(time)/1000.0) #m/s return speed def surface_area(self, radius): area = 4 * self.pi * math.pow(radius, 2) return area