Water pressure increases by 1 atm by every 8 m of depth during diving. The deepest sea depth is 11.6x10^3 m. Assuming that 4.9 moles of gas exists in a small balloon at that depth at 273.15 K, and assuming an isothermal and reversible process, calculate the ΔA in kilojoule, ΔS in J/K, ΔH in kilojoule, ΔU in kilojoule, and q in kilojoule of the gas after rising to the surface, also assuming that the balloon doesn’t burst.
Water pressure increases by 1 atm by every 8 m of depth during diving. The deepest sea depth is 11.6x10^3 m. Assuming that 4.9 moles of gas exists in a small balloon at that depth at 273.15 K, and assuming an isothermal and reversible process, calculate the ΔA in kilojoule, ΔS in J/K, ΔH in kilojoule, ΔU in kilojoule, and q in kilojoule of the gas after rising to the surface, also assuming that the balloon doesn’t burst.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Water pressure increases by 1 atm by every 8 m of depth during diving. The deepest sea depth is 11.6x10^3 m. Assuming that 4.9 moles of gas exists in a small balloon at that depth at 273.15 K, and assuming an isothermal and reversible process, calculate the ΔA in kilojoule, ΔS in J/K, ΔH in kilojoule, ΔU in kilojoule, and q in kilojoule of the gas after rising to the surface, also assuming that the balloon doesn’t burst.
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