Engineering, 14.04.2020 16:56, kylomi42
Plot the volume flowrate (Q) in gal/min versus the pressure drop across the obstruction orifice (p). The relationship between pressure drop and volume flowrate should approximately go as follows Q=b(∆P)^α where b (dimensional) and (dimensionless) are constants. Replot Q vs. P on a log-log plot. Does the data fall on a straight line? Estimate values for b and for this range of volume flowrates. Develop an ideal theoretical relationship between Q and P. Compare your experimental values of b and with the values expected from the ideal theory. Discuss possible reasons for differences.
Answers: 3
Engineering, 03.07.2019 15:10, brooklyn674
Apiston-cylinder with a volume of 0.25 m3 holds 1 kg of air (r 0.287 k/kgk) at a temperature of 100 c. heat transfer to the cylinder causes an isothermal expansion of the piston until the volume triples. how much heat is added to the piston-cylinder?
Answers: 3
Engineering, 04.07.2019 18:20, 1230bering
Select any two (2) areas of applications of chain-drive. (clo4) a)-permanent lubrication necessary b)-hydraulic forklift truck operation c)-rigging and heavy moving materials d)-relatively high maintenance costs e)-costlier than belt drives
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Engineering, 04.07.2019 19:20, zoebtharpe
Heat transfer by is the fastest mode of heat transfer that requires no intervening medium. a)-conduction b)-convection c)-radiation d)-conduction and convection
Answers: 1
Plot the volume flowrate (Q) in gal/min versus the pressure drop across the obstruction orifice (p)...
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