A pipe of 1.0 m diameter carries water to a municipality. Water is to be distributed to two different regions and the pipe gets bifurcated in to two smaller diameter pipes. The velocity of water in the large pipe before it gets divided is 0.5m/s. Determine the volume flow rate and the mass flow rate of water through the large pipe. Further, velocity of water in one of the branches with 0.3m diameter is 0.2m/s. Determine the flow velocity in the other branch of the pipe. Determine the mass flow rate of water in both the smaller pipes. Assume the density of water is 985 kg/m³. Draw the sketch showing the configuration. In a chemical industry certain oil flows and enters with a velocity of 1.2 m/s at the inlet pipe of diameter 0.8m. The pipe diameter gradually tapers down to 0.6m at the outlet. Determine the velocity of oil at the outlet of the pipe. Determine the mass flow rate of oil if the sp.gr is 0.92. Assume that there is no temperature variation along the flow. Water is pumped up through an inclined pipe to supply water on to a ridge. The diameter of the pipe is 200mm and the inlet velocity and pressure of water at the datum are 1m/s and 25N/cm². Determine the total energy per unit weight of water that is 20m above the datum level. Assume that there are no losses.
A pipe of 1.0 m diameter carries water to a municipality. Water is to be distributed to two different regions and the pipe gets bifurcated in to two smaller diameter pipes. The velocity of water in the large pipe before it gets divided is 0.5m/s. Determine the volume flow rate and the mass flow rate of water through the large pipe. Further, velocity of water in one of the branches with 0.3m diameter is 0.2m/s. Determine the flow velocity in the other branch of the pipe. Determine the mass flow rate of water in both the smaller pipes. Assume the density of water is 985 kg/m³. Draw the sketch showing the configuration. In a chemical industry certain oil flows and enters with a velocity of 1.2 m/s at the inlet pipe of diameter 0.8m. The pipe diameter gradually tapers down to 0.6m at the outlet. Determine the velocity of oil at the outlet of the pipe. Determine the mass flow rate of oil if the sp.gr is 0.92. Assume that there is no temperature variation along the flow. Water is pumped up through an inclined pipe to supply water on to a ridge. The diameter of the pipe is 200mm and the inlet velocity and pressure of water at the datum are 1m/s and 25N/cm². Determine the total energy per unit weight of water that is 20m above the datum level. Assume that there are no losses.
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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