ah 1deal mono-atomic gas 28. Inside a long cylinder, n trapped with the help of an airtight heat-insulating piston. The cu wall of the cylinder is made of a heat conducting material and th circular base is made of a heat insulating material. The piston connected with left wall of the cylinder with an elastic rubber cord negligible relaxed length and force constant k = 25 N/m. The cylinder placed in an airtight evacuated oven and then oven is switched on. The piston is stopped at a distance lo = 1.0 m from the left end of the cylinder, rate of temperature increase of the gas is measured and then %3D ha piston is released. If this rate of temperature increase is ro ind speed of the piston after it is released. A 3 nroR 0.08 %3D fon ideal m ono-at omic g as is nm

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the piston is released. If this rate of temperature increase is ro = 0.08 28. Inside a long cylinder, n = 0.5 mole of an ideal mono-atomic gas trapped with the help of an airtight heat-insulating piston. The cur wall of the cylinder is made of a heat conducting material and th circular base is made of a heat insulating material. The piston connected with left wall of the cylinder with an elastic rubber cord negligible relaxed length and force constant k = 25 N/m. The cylinder placed in an airtight evacuated oven and then oven is switched on. %3D The piston is stopped at a distance lo = 1.0 m from the left end of the cylinder, rate of temperature increase of the gas is measured and then %3D he Piston is released. If this rate of temperature increase is ro = 0.08 Kfind speed of the piston after it is released. Ans 3nYoR 5 mm of an ideal mono-atomic gas is made to und 8k1o