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Analysis using Ansys FEA is required. Linear Structural, Vibration/Modal and Steady State Thermal analysis can be use to simulate and obtain results to support the design optimization / objectives
Determine the analytical solution for the maximum stress of the beam shown; compare with stress results from SolidWorks.
Determine the natural frequencies of the system. For the baseline system I get natural frequencies at the following engine speeds: 435, 2026, 2818, 5225, 7093, 10245, and 12153 rpm.
Analysis of the motion of swing including velocity and acceleration plots of all moving parts and projectile analysis of projectile eg: flight path, horizontal distance, deceleration and launch velocity
draw a free body diagram for each of the two situations. use the "radial" Newton's law to find the tension in the string at each of these situations.
Create a window apllication in java
Evaluate the maximum theoretical power that can be developed by the turbine, in kW, and the corresponding exit temperature.
Determine the rate of heat transfer to the mid-stage cold head and determine the rate of heat transfer to the cold head
Sketch the frequency response of the system. Overlay the frequency spectrum of the excitation and as you start the system up, increasing Ω from 0 to 60 rpm, what speeds are most likely to excite large amplitude response? Why?
Determine the natural frequencies of the system-For the baseline system and find a design that changes the ?rst two natural frequencies more than any of the previous slight modi?cations.
Find the approximate location of the laminar turbulent transition - what is the net heat removed by the air around the rod?
Find the needed length of the heated section of the tube and find the temperature of the water when it exits the heated section of the tube.
Cracks propagate when the stress intensity factor exceeds a critical value and describe the fracture behaviour of the insulation tape loaded with a small crack.
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