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2013-03-31 15:55:04 -0500
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2013-05-26 18:56:54 -0500
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2013-04-15 00:40:27 -0500
slelievre
Nice naming of variables with subscript or superscript, avoiding variable names like phi_jm1_np1 ($\phi_{j-1}^{n+1}$)
notation
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2013-05-26 19:28:05 -0500
vdelecroix
Can I make plot(f(x)) figures smaller?
plotting
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2013-03-31 18:49:38 -0500
boyfarrell
Using sage to derive symbolic finite difference approximations to differential equations.
symbolic-expression
finite-difference
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2013-05-23 23:14:55 -0500
tmonteil
Using solve() to find an unknown which is a limit of integration?
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Nice naming of variables with subscript or superscript, avoiding variable names like phi_jm1_np1 ($\phi_{j-1}^{n+1}$)
Using sage to derive symbolic finite difference approximations to differential equations.
Can I make plot(f(x)) figures smaller?
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Nice naming of variables with subscript or superscript, avoiding variable names like phi_jm1_np1 ($\phi_{j-1}^{n+1}$)
Using sage to derive symbolic finite difference approximations to differential equations.
Can I make plot(f(x)) figures smaller?
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Nice naming of variables with subscript or superscript, avoiding variable names like phi_jm1_np1 ($\phi_{j-1}^{n+1}$)
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Nice naming of variables with subscript or superscript, avoiding variable names like phi_jm1_np1 ($\phi_{j-1}^{n+1}$)
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Using sage to derive symbolic finite difference approximations to differential equations.
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Nice naming of variables with subscript or superscript, avoiding variable names like phi_jm1_np1 ($\phi_{j-1}^{n+1}$)
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Nice naming of variables with subscript or superscript, avoiding variable names like phi_jm1_np1 ($\phi_{j-1}^{n+1}$)
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Using sage to derive symbolic finite difference approximations to differential equations.
Nice naming of variables with subscript or superscript, avoiding variable names like phi_jm1_np1 ($\phi_{j-1}^{n+1}$)
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