In this case you'll have to use the density of the sphere to determine it's mass. m2 m1 0 meters 1 2 3 4 5 6 7 8 9 10 1. Launch the simulation in this section. You may have noticed that we've removed some of the information that you used to have access to. Your task is still to find the magnitude of the force on m1 due to m2, but in this case you'll have to use the density of the spheres to determine their masses. Hint: • the mass of an object is its mass multiplied by its volume. mass = density x volume • The density of the spheres (which we'll represent with the Greek letter rho, p, is 150 hits • The volume of a sphere, V = far3 where r is the radius of the sphere. •G= 6.7 x 10-11 Nm kg .F = Gm mim2 N