18. Write the equation of this graph. Do not use X and Y in the equation. Use the variable names. 19. Describe in your own words the relationship between buoyant force and density. Substance Volume Force in Air Force in Water Buoyant Force Maple Syrup Maple Syrup Maple Syrup Maple Syrup Maple Syrup Maple Syrup Maple Syrup Part 3: Force Buoyancy vs. Bottle Volume 20. Reset the program to Maple Syrup on Earth, volume 600 ml, and mass of 1000 grams. 21. Click start and let the simulation run to completion. 22. Use the graph to find the force value in the air and the force value in the fluid. Record both in the data table. 23. Subtract these forces to get the force of buoyancy. Record this in the data table. 24. Place this in the data table as well. 25. Repeat with 7 more volumes (total of 8). Do not make changes to any other parameter.names. 18. Write the equation of this graph. Do not use X and Y in the equation I Ten th- -..-. . . Buoyant Force Lab Part 1: Force Buoyancy vs. Acceleration due to gravity 1. Open the program and scroll through the fluid choices by clicking on the word "fluid". 2. Set the simulation to gasoline. 3. The location should be Earth. The volume should be set near 500 mL and mass near 1000 grams. 4. Click start and let the simulation run to completion. 5. Use the graph to find the force value in the air and the force value in the fluid. Record both in the data table. Subtract these forces to get the force of buoyancy. 7. Note ag in the data table stands for acceleration due to gravity. Planet ag (m/s/s) Force in Air (N) Force in Fluid Force Buoyancy (N) (N) Earth 9.8 Moon 1.62 Mars 3.71 Venus 8.87 Jupiter 24.79 Vesta 0.22 3. Repeat this process for each planet available in the program. Do not make any other changes! 9. Make a graph of Force Buoyancy vs. ag. 10. Write the equation of this graph. Do not use X and Y in the equation. Use the variable names.1 1. Describe in your own words the relationship between buoyant force and the acceleration due to gravity. Part 2: Force Buoyancy vs. Fluid Density 12. Reset the program to gasoline on Earth, volume 100 ml, and mass of 2000 grams. 13. Click start and let the simulation run to completion. 14. Use the graph to find the force value in the air and the force value in the fluid. Record both in the data table. 15. Subtract these forces to get the force of buoyancy. Record this in the data table. Planet Density (kg/m') Force in Air (N) |Force in Fluid (N) Force Buoyance (N) Gasoline 737 Maples Syrup 1333 Crude Oil 825 Fresh Water 1000 Mercury 13,500 16. Repeat this process for each substance available in the program. Do not make any other changes! 17. Make a graph of Buoyant Force vs. density.26. Make a graph of Force Buoyancy vs. volume. 27. Write the equation of this graph. Do not use X and Y in the equation. Use the variable names. 28. Describe in your own words the relationship between buoyant force and the acceleration due to volume