3. In figure shown, pipes 1 and 2 are of diameter 3 cm, D3 = 4 cm. Alcohol (SG = 0.80) enters section 1 at 6 m/s while water enters at section 2 at 10 m/s. Assuming ideal mixing of incompressible fluids, compute the exit velocity and density of the mixture at section 3. The temperature is 20°C. Answer: 9 m/s, 928 kg/m3 1 (1) (2) Ideal mixing V₂. P₂

Elements Of Electromagnetics
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3. In figure shown, pipes 1 and 2 are of diameter 3 cm, D3 = 4 cm.
Alcohol (SG = 0.80) enters section 1 at 6 m/s while water enters at
section 2 at 10 m/s. Assuming ideal mixing of incompressible fluids,
compute the exit velocity and density of the mixture at section 3. The
temperature is 20°C. Answer: 9 m/s, 928 kg/m3
(2)
Ideal mixing
(3)
V₂-P3
Transcribed Image Text:3. In figure shown, pipes 1 and 2 are of diameter 3 cm, D3 = 4 cm. Alcohol (SG = 0.80) enters section 1 at 6 m/s while water enters at section 2 at 10 m/s. Assuming ideal mixing of incompressible fluids, compute the exit velocity and density of the mixture at section 3. The temperature is 20°C. Answer: 9 m/s, 928 kg/m3 (2) Ideal mixing (3) V₂-P3
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