It is going to varry, however if I could experimentally measure h
Ohhhh, I got it, that actually helps quite a bit assuming you are correct, and your calculations appear to make sense. Thanks!
So if we have ##dA##, we could integrate it and multiply it as a function of depth to find the Volume of the displaced fluid. Then you could intengrate the buoyant force with respect to volume ##dV## to find the depth, or would you integrate it with respect to depth ##dh##?
Homework Statement
So given a ball, radius r, mass m ,an a known height y from the surface the ball is dropped from, how would you calculate the depth the ball goes to in water (including the water it displaces), with the density of the ball less than the density of water. Ignore surface...