Argon gas flows through a well-insulated nozzle at steady state. The temperature and velocity at the inlet are 550°R and 150 ft/s,respectively. At the exit, the temperature is 480°R and the pressure is 40 lb/in?. The area of the exit is 0.0085 ft². Use the ideal gasmodel with k-1.67, and neglect potential energy effects.Determine the velocity at the exit, in ft/s, and the mass flow rate, in lb/s.Step 1Your answer is correctDetermine the velocity at the exit, in ft/s.V₂- 677.088HintStep 2ft/sDetermine the mass flow rate, in lb/s, through the nozzle.m = ilb/sAttempts: 2 of 4 used

GivenT1=550oR=550×59=305.556KV1=150ft/s=150×0.3048=45.72 m/sT2=480oR=480×59=266.667KP2=40…

Argon gas flows through a well-insulated nozzle at steady state. The temperature and velocity at the inlet are 550°ºR an respectively. At the exit, the temperature is 480°R and the pressure is 40 lb/in². The area of the exit is 0.0085 ft. Use t model with k-1.67, and neglect potential energy effects. Determine the velocity at the exit, in ft/s, and the mass flow rate, in lb/s. Step 1 Your answer is correct.

Argon gas flows through a well-insulated nozzle at steady state. The temperature and velocity at the inlet are 550°ºR an respectively. At the exit, the temperature is 480°R and the pressure is 40 lb/in². The area of the exit is 0.0085 ft. Use t model with k-1.67, and neglect potential energy effects. Determine the velocity at the exit, in ft/s, and the mass flow rate, in lb/s. Step 1 Your answer is correct.

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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