2015 USA Physics Olympiad Exam Part A 9 Question A4 A heat engine consists of a moveable piston in a vertical cylinder.The piston is held in place by a removable weight placed on top of the piston,but piston stops prevent the piston from sinking below a certain point.The mass of the piston is m =40.0 kg,the cross sectional area of the piston is A 100 cm2,and the weight placed on the piston has a mass of m =120.0 kg. Assume that the region around the cylinder and piston is a vacuum,so you don't need to worry about external atmospheric pressure. At point A the cylinder volume Vo is completely filled with liquid water at a temperature To=320 K and a pressure Pmin that would be just sufficient to lift the piston alone,except the piston has the additional weight placed on top. Heat energy is added to the water by placing the entire cylinder in a hot bath. At point B the piston and weight begins to rise. At point C the volume of the cylinder reaches Viax and the temperature reaches Tmax.The heat source is removed;the piston stops rising and is locked in place. Heat energy is now removed from the water by placing the entire cylinder in a cold bath. At point D the pressure in the cylinder returns to Pmin.The added weight is removed;the piston is unlocked and begins to move down. The cylinder volume returns to Vo.The cylinder is removed from the cold bath,the weight is placed back on top of the piston.and the cycle repeats. Because the liquid water can change to gas,there are several important events that take place At point W the liquid begins changing to gas. At point X all of the liquid has changed to gas.This occurs at the same point as point C described above. At point Y the gas begins to change back into liquid. At point Z all of the gas has changed back into liquid. When in the liquid state you need to know that for water kept at constant volume,a change in temperature AT is related to a change in pressure AP according to △P≈(106Pa/K)△T When in the gas state you should assume that water behaves like an ideal gas. Copyright C2015 American Association of Physics Teachers2015 USA Physics Olympiad Exam Part A 9 Question A4 A heat engine consists of a moveable piston in a vertical cylinder. The piston is held in place by a removable weight placed on top of the piston, but piston stops prevent the piston from sinking below a certain point. The mass of the piston is m = 40.0 kg, the cross sectional area of the piston is A = 100 cm2 , and the weight placed on the piston has a mass of m = 120.0 kg. Assume that the region around the cylinder and piston is a vacuum, so you don’t need to worry about external atmospheric pressure. • At point A the cylinder volume V0 is completely filled with liquid water at a temperature T0 = 320 K and a pressure Pmin that would be just sufficient to lift the piston alone, except the piston has the additional weight placed on top. • Heat energy is added to the water by placing the entire cylinder in a hot bath. • At point B the piston and weight begins to rise. • At point C the volume of the cylinder reaches Vmax and the temperature reaches Tmax. The heat source is removed; the piston stops rising and is locked in place. • Heat energy is now removed from the water by placing the entire cylinder in a cold bath. • At point D the pressure in the cylinder returns to Pmin. The added weight is removed; the piston is unlocked and begins to move down. • The cylinder volume returns to V0. The cylinder is removed from the cold bath, the weight is placed back on top of the piston, and the cycle repeats. Because the liquid water can change to gas, there are several important events that take place • At point W the liquid begins changing to gas. • At point X all of the liquid has changed to gas. This occurs at the same point as point C described above. • At point Y the gas begins to change back into liquid. • At point Z all of the gas has changed back into liquid. When in the liquid state you need to know that for water kept at constant volume, a change in temperature ∆T is related to a change in pressure ∆P according to ∆P ≈ (106 Pa/K)∆T When in the gas state you should assume that water behaves like an ideal gas. Copyright c 2015 American Association of Physics Teachers