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Q) In a hydraulic system comprised of a reservoir and a pump which is 4 ft above the oil level, what would be the pressure at the outlet of the pump, if the frictional effects are neglected and the flow rate is 4 gpm. The oil has a S.G of 0.9 and the pump used 2 hp. Inside diameter of the connecting pipe is 1 in.
a 300000 lbmhr steam flow enters a turbine of a power plant at 1000 f and 1000 psia. while passing through the turbine
at a point on the free surface of an alloy steel e 30000 ksi and v . 3 machine part normal strains of 1000 uinin
consider a steam power plant that operates on the ideal reheat rankine cycle. the plant maintains the boiler at 7000
5 kgm of water is at 15 c and is contained in a vertical cylinder by a frictionless piston of a mass such that the
calculate the critical heat flux on a large horizontal surface for the following fluids at 1 atm mercury ethanol and
calculate the static thrust of the turbojet engine having mass flow 88lbmsec the ratio of air and fuel mass flowing
air at 68 degrees f and 1atm. flows over a flat plate at 114.8 fts. the plate is 29.5 in long and 12 in wide. the plate
1. a ball is dropped from a height of 1.0m bounces off the floor and is observed to rise up a maxium height of .8 m.
Determine one by one the exact location of the points that appear in the two dimensional plot of fig 2.8. How many different paths can the system follow from state a to state b (chapter 2, advanced engineering thermodynamics by began)
a thermoelectric unit consists of n cells. when there is no temperature difference across the leads the resistance is 4
5ft3 of ammonia is initially at 100 psi and a specific volume of 0.024ft3lbm is heated or cooled to make this an
Using Dimensional Analysis, derive an expression for the drag coefficient of a high speed flow. At high speeds, you may assume the total drag depends on the fluid density p, average velocity U, Length scale of the object L, but does not depend on the..
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