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Calculate the density of air entering the nozzle, if the air leaves a nozzle at a P=1.5atm and T=600K at a velocity of 400m/s. The air enters at 150 m/s and the inlet to exit diameter ratio is 3:1.5.

Calculate the density of air entering the nozzle, if the air leaves a nozzle at a P=1.5atm and T=600K at a velocity of 400m/s. The air enters at 150 m/s and the inlet to exit diameter ratio is 3:1.5.

College Physics
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
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Calculate the density of air entering the nozzle, if the air leaves a nozzle at a P=1.5atm and T=600K at a velocity of 400m/s. The air enters at 150 m/s and the inlet to exit diameter ratio is 3:1.5. Please answer question number 1.
Solve the following problem and show necessary solutions. Box your finals answer. 1. Calculate the density of air entering the nozzle, if the air leaves a nozzle at a P=1.5atm and T=600K at a velocity of 400m/s. The air enters at 150 m/s and the inlet to exit diameter ratio is 3:1.5. 2. 1 kg water at velocity 12.5 m/s and 300C enters a 2.54 cm diameter horizontal pipe where there is no heat or work exchange with the surroundings. The water suddenly flows through a larger pipe with a diameter of 3.85cm. Calculate the following: a. Velocity of the water leaving the pipe in m/s b. The change in temperature of the water. Cp.t4.18 KgK
Transcribed Image Text:Solve the following problem and show necessary solutions. Box your finals answer. 1. Calculate the density of air entering the nozzle, if the air leaves a nozzle at a P=1.5atm and T=600K at a velocity of 400m/s. The air enters at 150 m/s and the inlet to exit diameter ratio is 3:1.5. 2. 1 kg water at velocity 12.5 m/s and 300C enters a 2.54 cm diameter horizontal pipe where there is no heat or work exchange with the surroundings. The water suddenly flows through a larger pipe with a diameter of 3.85cm. Calculate the following: a. Velocity of the water leaving the pipe in m/s b. The change in temperature of the water. Cp.t4.18 KgK
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