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Consider atmospheric air at uoo = 2 m/s and Too = 300 K in parallel flow over an isothermal flat plate of length L = 1 m and temperature Ts = 350 K.
(a) Compute the local convection coefficient at the leading and trailing edges of the heated plate with and without an unheated starting length of t = 1 m.
(b) Compute the average convection coefficient for the plate for the same conditions as part (a).
(c) Plot the variation of the local convection coefficient over the plate with and without an unheated starting length.
Evaluate the values of ultimate tensile strength, yield strength, percent elongation, fractural strain, and Young's Modulus of the selected metals of aluminum when subjected to uniaxial tensile loading.
how would you use a pulley system with one rope to pull at a single item at two points simultaneously?the free ropes of
liquid propane c3h8 enters a combustion chamber at 25 c at a rate of 1.2 kgmin where it is mixed and burned with 150
Weekly sales for watermelons over the summer at a local produce stand exhibit a linear trend. The demand for weeks 1 through 10 was 91, 94, 95, 97, 92, 101, 107, 116, 113, and 121. Calculate the forecasts for weeks 2 through 10 using Holt’s double ex..
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using the kelvin-planck statement of the second law of thermodynamics demonstrate the following corollaries a. the
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An ideal compressor compresses 12 kg/min of air from 300K and 100 KPA isothermally to a final pressure of 600 KPA. Determine the power and heat transfer in kW.
The system acetone (1) and methanol(2) is well represented by the one parameter Margules equation using A = 0.605 at 50 degrees C. a) What is bubble pressure for an equimolar mixture at 30 C?
Find Max Level Airspeed at 95% RPM and find Max Range Airspeed (VBR) and Max Endurance Airspeed (VBE) - find Max Specific Range and Max Range Airspeed
KVL provides us with another way of arriving at a complete set of equations. There are three distinct loops in the circuit. Are There Any Tricks That Can Make This Easier?
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