Engineering, 10.12.2020 16:30 liyahguyton
1 For the 8 m long simply-supported beam shown below, create influence lines for both reaction forces (Ay and Cy); for the shear at Point B (VB), and for the moment at Point B (MB). Point B is located x = 5 m to the right of Pin A. Also determine the maximum positive shear at Point B and the maximum moment at Point B due to a two-axle vehicle traveling across the 8 m beam. The axles are separated by a distance of 2.5 m, and the wheel loads (point loads on the beam) are 18 kN and 72 kN. The vehicle may travel either direction across the beam (i. E.- the 18 kN load could be to the left of the 72 kN load, or the 18 kN load could be to the right of the 72 kN load).
Answers: 1
Engineering, 04.07.2019 18:10, yasminothman02
An air conditioning system consist of a 5 cm diameter pipe, operating at a pressure of 200 kpa. the air initially enters the pipe at 15°c with a velocity of 20 m/s and relative humidity of 80%. if the heat supply throughout the process is 960 w, determine the relative humidity and the temperature at the outlet
Answers: 3
Engineering, 04.07.2019 18:10, kevin72836
Consider a large isothermal enclosure that is maintained at a uniform temperature of 2000 k. calculate the emissive power of the radiation that emerges from a small aperture on the enclosure surface. what is the wavelength ? , below which 10% of the emission is concentrated? what is the wavelength ? 2 above which 10% of the emission is concentrated? determine the wavelength at which maximum spectral emissive power occurs. what is the irradiation incident on a small object placed inside the enclosure?
Answers: 2
Engineering, 04.07.2019 18:10, Tyrant4life
Draw the engineering stress-strain curve for (a) bcc; (b) fcc metals and mark important points.
Answers: 1
1 For the 8 m long simply-supported beam shown below, create influence lines for both reaction force...
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