1 kg of Oxygen has initial volume of 2 x 10° cm³ is heated at Isobaric process from 298 K to200°C. Calculate (i) ratio of specific heats (ii) heat transfer in 'kJ' (ii) work transfer in 'kJ'(iv)change in internal energy in 'kl' (v) volume after heating (vi) pressure before heating in"bar'.Gas(kJ/kg K)(kJ/kg K)Air1.0050.718OxygenNitrogenHydrogenCarbon monoxide0.9200.6601.0460.75414.4010.401.0460.754

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1 kg of Oxygen has initial volume of 2 x 10° cm³ is heated at Isobaric process from 298 K to 200°C. Calculate (i) ratio of specific heats (ii) heat transfer in 'kl" (ii) work transfer in 'kl'(iv) change in internal energy in 'kl' (v) volume after heating (vi) pressure before heating in "bar. Gas (kJ/kg K) (kJ/kg K) Air 1.005 0.718 Oxygen Nitrogen Hydrogen 0.920 0.660 1.046 0.754 14.40 10.40 Carbon monoxide 1.046 0.754

1 kg of Oxygen has initial volume of 2 x 10° cm³ is heated at Isobaric process from 298 K to 200°C. Calculate (i) ratio of specific heats (ii) heat transfer in 'kl" (ii) work transfer in 'kl'(iv) change in internal energy in 'kl' (v) volume after heating (vi) pressure before heating in "bar. Gas (kJ/kg K) (kJ/kg K) Air 1.005 0.718 Oxygen Nitrogen Hydrogen 0.920 0.660 1.046 0.754 14.40 10.40 Carbon monoxide 1.046 0.754

Principles of Heat Transfer (Activate Learning with these NEW titles from Engineering!)

8th Edition

ISBN:9781305387102

Author:Kreith, Frank; Manglik, Raj M.

Publisher:Kreith, Frank; Manglik, Raj M.

Chapter2: Steady Heat Conduction

Section: Chapter Questions

Problem 2.39P: The tip of a soldering iron consists of a 0.6-cm- diameter copper rod, 7.6 cm long. If the tip must...

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