0.1 ml of an ideal gas has volume 1 dm3 in a locked box with friction less piston. The gas is in thermal equilibrium with excess of 0.5 m aqueous ethylene glycol at its freezing point. If piston is released all of a sudden at 1 atm then determine the final volume of gas in dm3 (R = 0.08 atm L molandndash;1 Kandndash;1 Kf = 2.0 K molalandndash;1).Correct answer is between '2.17,2.18'. Can you explain this answer?

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0.1 ml of an ideal gas has volume 1 dm³ in a locked box with friction less piston. The gas is in thermal equilibrium with excess of 0.5 m aqueous ethylene glycol at its freezing point. If piston is released all of a sudden at 1 atm then determine the final volume of gas in dm³ (R = 0.08 atm L mol^–1 K^–1 K_f = 2.0 K molal^–1).

Correct answer is between '2.17,2.18'. Can you explain this answer?

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0.1 ml of an ideal gas has volume 1 dm3 in a locked box with friction ...

K_f = 2.0
m = 0.5 m
ΔT_f = K_fm = 0.5 × 2
T_initial = 272 K
n = 0.1 mol
V = 1 dm³

= 2.176 atm
After releasing piston P₁V₁ = P₂V₂
2.176 × 1 = 1 × V₂
V₂ = 2.176 dm³

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0.1 ml of an ideal gas has volume 1 dm3 in a locked box with friction less piston. The gas is in thermal equilibrium with excess of 0.5 m aqueous ethylene glycol at its freezing point. If piston is released all of a sudden at 1 atm then determine the final volume of gas in dm3 (R = 0.08 atm L mol–1 K–1 Kf = 2.0 K molal–1).Correct answer is between '2.17,2.18'. Can you explain this answer?

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0.1 ml of an ideal gas has volume 1 dm3 in a locked box with friction less piston. The gas is in thermal equilibrium with excess of 0.5 m aqueous ethylene glycol at its freezing point. If piston is released all of a sudden at 1 atm then determine the final volume of gas in dm3 (R = 0.08 atm L mol–1 K–1 Kf = 2.0 K molal–1).Correct answer is between '2.17,2.18'. Can you explain this answer? for JEE 2024 is part of JEE preparation. The Question and answers have been prepared according to the JEE exam syllabus. Information about 0.1 ml of an ideal gas has volume 1 dm3 in a locked box with friction less piston. The gas is in thermal equilibrium with excess of 0.5 m aqueous ethylene glycol at its freezing point. If piston is released all of a sudden at 1 atm then determine the final volume of gas in dm3 (R = 0.08 atm L mol–1 K–1 Kf = 2.0 K molal–1).Correct answer is between '2.17,2.18'. Can you explain this answer? covers all topics & solutions for JEE 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for 0.1 ml of an ideal gas has volume 1 dm3 in a locked box with friction less piston. The gas is in thermal equilibrium with excess of 0.5 m aqueous ethylene glycol at its freezing point. If piston is released all of a sudden at 1 atm then determine the final volume of gas in dm3 (R = 0.08 atm L mol–1 K–1 Kf = 2.0 K molal–1).Correct answer is between '2.17,2.18'. Can you explain this answer?.

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