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A solution of ethanol is pumped to a vessel 25 m above a reference level through a 25 mm inside diameter steel pipe at a rate of 10 m3/h. The length of pipe is 30 m and contains two elbows with friction equivalent to 20 meters each. Compute the power requirement of a pump. Solution properties include density of 975 kg/m3 and viscosity of 4×10-4 PaS.
helium gas in an ideal otto cycle is compressed from 12degc and 2 l to 0.25 l and its temperature increases by an
If an identical spring is cut so that one part is one-fourth and the other part three-fourths of the original length, and the mass m is connected to the two parts, what would be the natural period of the system?
determine the specific volume of superheated water vapor at 15mpa and 350oc using a the ideal gas equation b the
Why does a car engine stop when we turn the key even when the vehicle is running? The engine should run on alternator in case of a petrol engine and on it's own in case of a diesel engine. Then how does it stop exactly?
a round casting is 0. 2 m in diameter and 1 m in length. another casting of the same metal is elliptical in cross
a water pump pumps out 2400kg of water pr min. a if water coming out with a velocity of 3ms what is power of the pump?
a 6.44 kg steel ball is at a height of 8.12 meters above the floor traveling at a velocity of 4.69 ms and has an
a 1.5 ton crate is hoisted by three steel wires. Each wire is 1/4 in in diameter and each wire carries one-thired of the load. Determine the stress in each of the wires.
Why does the definition of NPSH include the dynamic head of the fluid? Isn't cavitation based only on the difference between the static head and the local vapor pressure?
a wheatstone bridge initially has resistances equal to r1 200 omega r2 400 omega r3 500 omega and r4 600 omega .
How can be determined the dynamic parameters of a second order system, wiht an Inertia (M), a dampening coeficient ( C ) and a Stiffness constant ( K).
The center of gravity of the boom is located at G. Determine (a) the tension in cables DE and DF, (b) the reaction at A.
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