http://www.thephysicsaviary.com/Physics/Programs/L abs/ForceBuoyancy/index.html

Procedure: Simulation Link: http:llwww.thephysicsaviary.coml Physics/P rogramsl L abs/ForceBuoyancylindexhtml Part I: Buoyancy Lab Buoyancy in different fluids. (a) Click 'Reset' on the lower right of simulation screen. Select uid as 'Gasoline'. (b) Select location as 'Earth', Bottle Volume as 100mL, mass as 2,000 grams. Leave all other parameters unchanged except location and fluid type. (c) Click on 'Start' and allow enough time for bottle to be completely submerged and motionless. Graph shows total time as sixteen seconds. (d) From your graph subtract reading of force when in fluid from force when in air to determine buoyant force. (e) Click on 'Fluid' to change uid. Do not change any other parameter. Now repeat experiment for all available fluids in simulation (f) Record data in table below. (9) Make a graph of Force Buoyant vs. density. Fluid Density Force in Air (N) (KQImB) Force in Fluid (N) Buoyant Force (N) Gasoline Maple Syrup Crude Oil Fresh Water Mercury Part II Force Buoyant vs. Bottle Volume (a) Click 'Reset' on the lower right of simulation screen. Select uid as 'Fresh Water'. (b) Select location as 'Earth', Bottle Volume is 100mL, mass is 1,000 grams