hydroex
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hydroex [2014/05/02 09:53] cyburt |
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| - | ====== TALENT ====== | + | ====== EXERCISES ====== |
| - | ===== Training in Advanced Low Energy Nuclear Theory: EXERCISES ===== | + | **[[RXNnetworkEX|Reaction Networks]]**, **[[NuclPhysInput|Nucl Physics Input]]**, **[[HydroEX|Hydro]]**, **[[BBNEX|BBN]]** |
| - | [[http://www.nucleartalent.org|{{:talent.png?650|Nuclear TALENT}}]] | + | |
| - | [[RXNnetworkEX|Reaction Networks]], [[HydroEX|Hydrodynamics]], [[AnlyPlot|Abundances, Analysis and Plotting]], [[NuclPhysInput|Nuclear Physics Input]] | + | |
| ==== Hydrodynamic Exercises ==== | ==== Hydrodynamic Exercises ==== | ||
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| **Download, compile and run the Hydrodynamics Code** | **Download, compile and run the Hydrodynamics Code** | ||
| - | - Download the [[hydrocode|Hydrodynamics Code]]. | + | - Download the VH1.0 [[hydrocode|Hydrodynamics Code]]. |
| - Compile the code with your fortran90 compiler. | - Compile the code with your fortran90 compiler. | ||
| - Report in the Hydrodynamics Code discussion thread your success with machine information. | - Report in the Hydrodynamics Code discussion thread your success with machine information. | ||
| Line 16: | Line 14: | ||
| - Plot and compare your results to the expected solution. | - Plot and compare your results to the expected solution. | ||
| - Read the [[http://astro.physics.ncsu.edu/pub/VH-1/bguide.php|Inside the code]] guide. | - Read the [[http://astro.physics.ncsu.edu/pub/VH-1/bguide.php|Inside the code]] guide. | ||
| + | - The VH1 User’s Guide for the serial version is hidden at [[http://astro.physics.ncsu.edu/pub/VH-1/sintro.php|VH1 User's Guide]]. | ||
| </box> | </box> | ||
| - | <box 80% left blue|**(During-Course Assignment)**> | ||
| - | **Run a hydrodynamic code for:** | ||
| - | |||
| - | - Read the [[http://astro.physics.ncsu.edu/pub/VH-1/bproblems.php|Problems & Solutions]] guide. | ||
| - | * Set up and run the [[http://astro.physics.ncsu.edu/pub/VH-1/bproblems.php#stb|Sedov Blast]] problem. | ||
| - | * Set up and run the [[http://astro.physics.ncsu.edu/pub/VH-1/bproblems.php#bnd|Bondi Accretion]] problem. | ||
| - | - Gravitational collapse of: | ||
| - | * Uniformly distributed “star” (P(initial) = 0) | ||
| - | * Simple density profile (P(initial) = 0) | ||
| - | * Are there self-similar solutions? | ||
| - | - Energy injection into gas clump of: | ||
| - | * uniformly distributed mass | ||
| - | * simple density profile $\rho(r) = \rho(0)[1-(r/R)^2]^n $ | ||
| - | * How does the evolution change with different injection energies | ||
| - | - Drive a piston through some medium | ||
| - | * Piston in a cylinder | ||
| - | * Spherical piston driving outwards | ||
| - | * Spherical piston driving inwards | ||
| - | * How does the outward driven spherical piston compare to the energy injection? | ||
| - | </box> | ||
| ~~DISCUSSION|Hydrodynamic Exercises Discussion~~ | ~~DISCUSSION|Hydrodynamic Exercises Discussion~~ | ||
hydroex.txt · Last modified: 2014/05/29 08:24 by cyburt
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