Results comparison target q m day per radian 3 ansys1

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Unformatted text preview: n F. B. Hildebrand, Advanced Calculus for Applications are used. Applying the temperature boundary condition and the requirement that T(r, Θ) should be finite and single-valued leads to the solution: T(r, Θ) = To * (r/ro)2 * cos (2 Θ). Results Comparison Target Mode = 2 Angle = 0° T, °F (Node 1) ANSYS Ratio 0.0 0.0 1.00 ANSYS Verification Manual . ANSYS Release 9.0 . 002114 . © SAS IP, Inc. 1–354 VM160 T, °F (Node 3) 5.0 1.00 T, °F (Node 5) 20.0 20.0 1.00 T, °F (Node 7) 45.0 45.0 1.00 Target Mode = 2 Angle = 90° 5.0 ANSYS Ratio T, °F (Node 1) 0.0 0.0 1.00 T, °F (Node 3) -5.0 -5.0 1.00 T, °F (Node 5) -20.0 -20.0 1.00 T, °F (Node 7) -45.0 -45.0 1.00 ANSYS Verification Manual . ANSYS Release 9.0 . 002114 . © SAS IP, Inc. 1–355 VM161: Heat Flow From an Insulated Pipe Overview Reference: F. Kreith, Principles of Heat Transfer, 2nd Printing, International Textbook Co., Scranton, PA, 1959, pg. 36, ex. 2-7. Analysis Type(s): Thermal Analysis (ANTYPE = 0) Element Type(s): 3-D 20-Node Thermal Solid Elements (SOLID90) Input Listin...
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