6. If ß, Kt as a function of temperature are: B x 10° (K') T (K) Ks × 10’(cm²/N) 100 31.5 0.72 150 41.0 0.733 200 45.6 0.748 250 48.0 0.762 300 49.0 0.776 500 54.2 0.817 800 60.7 0.922 a) What is the percent of volume change of copper caused by the change in state from 200 K, and 1 bar to 300 K and 1000 bar. b) A mass of 0.1 kg copper is heated from 250 K to 500 K and compressed from 1bar to 500 bar. Estimate the volume change in cm', if the volume of copper at 500 K is 7.115 cm/mol.

6. If ß, Kt as a function of temperature are: B x 10° (K') T (K) Ks × 10’(cm²/N) 100 31.5 0.72 150 41.0 0.733 200 45.6 0.748 250 48.0 0.762 300 49.0 0.776 500 54.2 0.817 800 60.7 0.922 a) What is the percent of volume change of copper caused by the change in state from 200 K, and 1 bar to 300 K and 1000 bar. b) A mass of 0.1 kg copper is heated from 250 K to 500 K and compressed from 1bar to 500 bar. Estimate the volume change in cm', if the volume of copper at 500 K is 7.115 cm/mol.

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.

Chapter5: Analysis Of Convection Heat Transfer

Section: Chapter Questions

Problem 5.2P: 5.2 Evaluate the Prandtl number from the following data: , .

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