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Assuming the cylinder is rest on a table and free to move, determine the stress and final dimensions (i.e. length, outside diameter, inside diameter) of the cylinder. Length 20 cm, alpha = 0.0000117
Determine the rate of heat addition and rejection when this cycle produces 110 hp and the cycle is repeated 1580 times per minute. Use constant sp. heats at room temperature.
Determine the net power output, in MW, if the fuel mass flow rate is 1200 kg/h. Kinetic and potential energy effects are negligible.
Determine the temperature of the combustion products, in K for complete combustion. (a) the theoretical amount of air. (b) 300% of theoretical air.
Due to the forces shown, the tip of the wing, point E, deflects upward by 8cm. Assuming the wing is rigid determine the stiffness kt of the torsional spring. Reort your answer using degrees.
Determine: 1. The rate of heat removal from the refrigerated space and the power input to the compressor. 2. The rate of heat rejection to the environment.
The thickness of some of the chips produced in this process is measured to be 0.22mm. Show all work to find the forces in Merchants circle?
A kitchen freezer uses 500 W of power to hold the freezer temperature to -10F. With R-134a as the refrigerant, it rejects high temperature thermal energy to the kitchen at 100 F.
Consider an ideal steam reheat cycle in which the steam enters the high-pressure turbine at 600 psia, 700 F, and then expands to 120 psia.
A condensing turbine is used, but the quality should not be lower than 90% at any state in the turbine. Find the specific work in all components.
Determine the maximum allowable landing velocity with a 1.15 factor of safety (FS) applied to the runway length. Determine the time until taxi speed is reached for the 1.15 FS
Create a MATLAB function called PascalTri that computes and prints a formatted Pascal's Triangle for any integer input using MATLAB. The function will have one input argument, a positive integer.
The 20 kg pulley has a radius of gyration of 160 mm. if B has a mass of 10 kg, determine the angular acceleration oof the pulley and the tesion in the cable connected to B.
What is the minimum amount of fuel that must be consumed per piston each cycle? What is the power output (in kW and hp) of the engine at its rated speed of 5900 RPM?
Determine the value of gain, k which would lead to marginal stability. Using MATLAB, plot the step response of the closed loop system with this value of gain. Comment on this response.
Determine (a) the maximum temperature in the cycle and the cutoff ratio (b) the net work output per cycle and the thermal efficiency, (c) the mean effective pressure, (d) the net power output.
Is head loss greater if most of the pipe of a pumping system with a vertical lift from an underground fuel tank vs a system above ground?
What is the thermal efficiency of this cycle? Use constant specific heats at room temperature. What would the thermal efficiency of the cycle be without the regenerator?
What is the temperature of the air at the end of the process? What is the entropy generation within this system in units of kJ/K ?
Develop a computer program for above computation and run the program for crank angles 0-360 degrees with an interval of 5 degrees. -Plot all the coupler points and obtain the analytical coupler curv
Compute the weight percent sulfur that must be added to completely crosslink an alternating acrylonitrile-butadiene copolymer, assuming that four sulfur atoms participate in each crosslink.
Determine: 1) The maximum temperature 2) The heat addition per unit mass 3) The net work per unit mass 4) The thermal efficiency 5) The mean effective pressure.
Determine (a) the normall stresses in aluminum pipe (1) and steel pipe (2); (b) the displacement of flange B . The pic isn't loading but the force is at 160" from the left (at the flange) with 2x 45