Engineering, 07.05.2021 18:30 mileto5824
A fin of diameter d W 0.3 cm, length L = 2 cm, and conductivity k = 138 is dissipating heat m. K from a surface at 100 °C. The ambient air is at T. 20 °C and the convection heat transfer coefficient is h = 10 2. Using the adiabatic fin method equations (fin with negligible heat loss at m2.K the tip) along with the corrected fin length, Lc, find the rate of heat dissipated by the fin (in Watts).
Answers: 1
Engineering, 03.07.2019 23:20
Two technicians are discussing the intake air temperature (iat) sensor. technician a says that the computer uses the iat sensor as a backup to the engine coolant temperature (ect) sensor. technician b says that the powertrain control module (pcm) will subtract the calculated amount of fuel if the air measures hot. who is correct
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Engineering, 04.07.2019 18:10
Hydraulic fluid with a sg. of 0.78 is flowing through a 1.5 in. i.d. pipe at 58 gal/min. the fluid has an absolute viscosity of 11.8 x 105 lbf-sec/ft2. is the flow laminar, turbulent or within the critical range? give both a numerical reynolds number and a term answer.
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Engineering, 04.07.2019 18:20
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Engineering, 04.07.2019 19:10
What are the major differences between injection molding and extrusion?
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A fin of diameter d W 0.3 cm, length L = 2 cm, and conductivity k = 138 is dissipating heat m. K fro...
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