C. When only K is Constant 15. Click here to open the PHYS 2425 Lab 8. Part. C Simulation Here is the direct link https:/www.geogebra.org/m/ergfmk_g 16. Keep the additional mass on the sled /, to 1000 g with the slider control. Record the total mass of the sled mis - Mes + 172, in Table 3. (me is the same 85 5). 17. Leave the angle for your incline set to 0 - 5 18. Using the slider, set the mass on the hanger to pull the sled at constant speed after you hit the "Start Simulation" button. The simulation stops automatically under three conditions: 1) the sled stops, 2) the hanging mass hits the ground, or 3) about 10-15 simulated seconds have passed. If the hanging mass is too heavy, it will speed up. If your hanging mass is too light, it will slow down and stop. If you need to change your hanging mass to try again, hit the reset animation button before making your change and then restarting the simulation. 19. Once you have achieved a constant speed for the sled, record the hanging mass mr in Table 3. Use the markings in the simulation to find the distance the hanging mass descends and record it as yx in Table 3 (even if the mass moves past v 0, do not include this!). The sled will move the same distance as the mass descends. 20. Calculate the heat AH generated by friction using equation 3 and record it in Table 3. 21. Perform four additional trials, increasing the inclination angle by 2-30 for each trial and repeating steps 18-20 with the new angle, for a total of five trials (m will change each time). Record your data in Table 3. Take a screenshot of any one of the trials. The web address, date, and time of the device that you used should be in the screenshot. Inset here. Add more space if needed.ata Table 3 Mass of the empty sled mes = 85 g mass of the sled ms = mes + mw =_ [answer] 0 (degrees) m.(Kg) yh(m) AH Show work including formula and calculations with numbers plugged in