round off to 3 decimal places. handwritten 1. A gas in a cubical container with side equal to 0.3568 m has a pressure of 0.24 MPaat 24°C. If the gas constant is equal to 212, Compute the following, a. Density ofkg-K'kgthe gas in, b. Mass of the gas in lbm , c. Weight of the gas in N.2. Water is flowing in a pipe with radius of 25.4 cm at velocity of 5 m/s. The viscosity ofwater is 1.131 Pa-s and its density is equal to 997.9 . What is its Reynolds numberand type of fluid flow?3. If 1496.2 gal of diesel weighs 45,800 N, Calculate the Specific Weight, Density, andSpecific gravity in SI units.

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1. A gas in a cubical container with side equal to 0.3568 m has a pressure of 0.24 MPa at 24°C. If the gas constant is equal to 212 Compute the following, a. Density of the gas in , b. Mass of the gas in lbm , c. Weight of the gas in N. kg-K' 2. Water is flowing in a pipe with radius of 25.4 cm at velocity of 5 m/s. The viscosity of water is 1.131 Pa-s and its density is equal to 997.9 . What is its Reynolds number and type of fluid flow? 3. If 1496.2 gal of diesel weighs 45,800 N, Calculate the Specific Weight, Density, and Specific gravity in Sl units.

1. A gas in a cubical container with side equal to 0.3568 m has a pressure of 0.24 MPa at 24°C. If the gas constant is equal to 212 Compute the following, a. Density of the gas in , b. Mass of the gas in lbm , c. Weight of the gas in N. kg-K' 2. Water is flowing in a pipe with radius of 25.4 cm at velocity of 5 m/s. The viscosity of water is 1.131 Pa-s and its density is equal to 997.9 . What is its Reynolds number and type of fluid flow? 3. If 1496.2 gal of diesel weighs 45,800 N, Calculate the Specific Weight, Density, and Specific gravity in Sl units.

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.

Chapter3: Transient Heat Conduction

Section: Chapter Questions

Problem 3.37P

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