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Air enters an insulated diffuser operating at steady state at 1 bar, -3 degrees C, and 260 m/s and exits with a velocity of 130 m/s. Employing the ideal gas model and ignoring potential energy , determine (a) the temperature of the air at the exit in degrees C (b) the max attainable exit pressure in bar.
refrigerant 134a is too accelerated in a steady flow nozzle to a velocity of 250 mpa. at the nozzle inlet the pressure
two equal-length springs are nested together in order to form a shock absorber. if it is designed to arrest the motion
problem 1 a 2.5 lbf block b is moving with a velocity vo of magnitude vo 6fts as it hits the 1.5 lbf sphere a which is
a geothermal heat pump is used to provide a house with 5 kw of heating. the house is at 25degc and the ground
a pitot-static probe connected to a water manometer is used to measure the velocity of air. if the de?ection
a thrust reversing system is used in jet engines to provide extra braking force to slow down an aircraft after a
assume that a seismically excited system is accurately modeled by a mass attached to the ground by a spring and a
A long electric wire of radius r0 generates heat at rate of q'''. The surface is maintained at uniform temp of T0. Write heat equation and boundary conditions for steady state one dimensional conduction.
what speed will the sleeve attain? The temperature oƒ the sleeve remains constant.
The polynomial method is to be used to solve the equation. For the graphs, Mathcad or similar program is necessary to graph the solution.
estimate the land area required to grow willow that would provide 1 gw of power in a region where the annual solar
a wire of radius ri is coated by a process described above. it is fed to a reservoir filled with a newtonian fluid with
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