{alias:flatplate}
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Author: Rajesh Bhaskaran, Cornell University
{color:#ff0000}{*}Problem Specification{*}{color}
[1. CreatePre-Analysis Geometry in GAMBIT& Start-up|FLUENT - Flat Plate Boundary Layer Step 1]
[2. Mesh Geometry in GAMBIT|FLUENT - Flat Plate Boundary Layer Step 2]
[3. Specify Boundary Types in GAMBITMesh|FLUENT - Flat Plate Boundary Layer Step 3]
[4. Set Up Problem in FLUENTSetup (Physics)|FLUENT - Flat Plate Boundary Layer Step 4]
[5. Solve\!Solution|FLUENT - Flat Plate Boundary Layer Step 5]
[6. Verification Analyzeand ResultsValidation|FLUENT - Flat Plate Boundary Layer Step 6]
[7. Refine Mesh|FLUENT - Flat Plate Boundary Layer Step 7]
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h2. Problem Specification
Consider a flow over an infinitely thin flat plate with a length of 1 meter. The fluid is flowing in the x-direction with a velocity of 1 m/s. The Reynold's number based on the plate length is 10,000.
Go to [Step 1: CreatePre-Analysis Geometry in Gambitand Start-up|SIMULATION:FLUENT - Flat Plate Boundary Layer Step 1]\\ | 
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