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How do you solve for the stresses acting on a perimeter point centered on the y axis, the force is applied parallel to the y axis 200 mm in the -x axis direction and another force acting in the -z axis direction at the same point. the forces are acting on a rigidly connected bar to the center of the cylinder. The cylinder is 500 mm in length and 30 mm in diameter.
The humidity of air can be determined by use of two different thermometers; a 'dry bulb' thermometer and a 'wet bulb' thermometer. explain how these thermometers can be used to estimate the amount of water vapour in the air.
Solve the problem in the image. Do it step wise in detail. This question is from book "Fracture Mechanics - An Introduction - E. Gdoutos Springer (Page 74)"
Block A has a mass of 3 kg and B has a mass of 5 kg. If the system is released from rest, determine the velocity of each block in t=4s. Neglect the mass of the pulleys.
Find the enthalpy of the steam discharged into the condenser and the thermal efficiency of the cycle.
Determine the resultant of the three forces F1 = 2.0i + 3.3j - 2.6k; F2 = - i + 5.2j - 2.9k; and F3 = 8.3i - 6.6j + 5.8k, which are concurrent at the point (2, 2, -5.). The forces are in Newton's and the distances are in meters.
Determine the temperature at which the liquid in the tank is completely vaporized. Also show the process on a T-v diagram with respect to saturation lines.
an ideal rankine cycle produces 100 MW of power. If the steam enters the turbine at 100 bar and 500C and is condensed at 1 bar, determine the flow rate of stream and the thermal efficiency.
The velocity profiles at locations x=0.1, 0.30 and 0.5. Plot contours of u-velocity and v-velocity. How many iterations did it take to get your solution?
If the instrument weighs 85N, find the necessary static deflection of the isolator.
Draw conclusions concerning the process, and relate your interpretation to the possible existence of chance and assignable causes of variation.
Use cold air properties to find the highest cycle pressure, the specific energy added by combustion, and the mean effective pressure.
Determine the surface temperature of the wire during a windy day when the air temperature is 10°C and the wind is blowing across the transmission line at 50 km/h.
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