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At a pumped storage facility, water is pumped from a large reservoir to a point 150 feet above the resevoir. How many feet of head must the pump add to achieve 10,000 lbm/hr flow through a 24 inch pipe with a friction head loss of 1.5 feet? Fluid density is 62.4 lbm/ft^3. Draw a picture of the problem and show all work.
Show that the spacing between (111) planes in the FCC structure is the same as the spacing (002) planes in the HCP structure. Imagine the atoms to behave as hard spheres.
the turbine rotor in the power plant of a ship as shown in fig. 3 has a weight of 12.75 kn with centre of gravity at g
assuming that the solid shaft has been replaced by a hollow shaft of the same cross-sectional area and with an inner diameter equal to half of its own outer diameter.
steam at 200 c and 7 bars enters a mixing tank at a rate of 3 kgmin through a pipe with a cross-section of 1.20 cm2.
heat in the amount of 100 kj is transferred directly from a hot reservoir at 1200 k to a cold
a plate of mass m is suspended between two opposing jets each of area a velocity vo and density d. the plate is
a refrigeration engineer has designed a steady-flow no work interaction device that separates a continuous flow of 100
the diffusion constant do and activation energy q of c in bcc fe is 0.01 cm2sec and 80kjmol respectively. in fcc fe the
air at 80 degrees fahrenheit and 80 percent relative humidity is cooled to 51 degrees fahrenheit at a constant pressure
Determine the Biot number in order to support the lumped formulation. Solve the differential equation to find an expression for temperature as a function of time.
the velocity of a particle at t2 seconds is 50 ms with an angle of 40 degrees down and to the right. at t6 seconds it
standard atmospheric air at stagnation conditions t0 59 degree f p0 14.7 psia is drawn steadily through a
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