Constants: Difference between revisions

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Avogadro's Number: <math>N_A =</math>6.0221415e23 <math>mol^{-1}</math>
Avogadro's Number: N_A = 6.0221415e23 (1/mol)
 
Elementary Charge: e = 1.60217646e-19 C
 
1 kcal = 4184.00 J
 
1 kcal/mol = 6.94769e-21 J
 
1 mdyn = 1e-8 N
 
1 mdyn*Å = 1e-18 J = 143.933 kcal/mol
 
1 kcal/mol = 6.94768e-3 mdyn*Å
 
Number of units in simulation cell: n=rho*V*Na/M
 
Buckinghami potentsiaali valem:
 
<math>U(r)=A \cdot \exp\left(-{r\over\rho}\right)-{C\over r^6}</math>
 
Lennard-Jonesi potentsiaali valem:
 
<math>U(r)=D_0\left[
\left({
R_0\over r}
\right)^{12}-2\left({
R_0\over r
}\right)^6
\right]</math>
 
UFF artiklist tulenevad valemid Buckinghami sobitamiseks Lennard-Jonesi potentsiaaliga:
 
<math>A=D_0e^{12}</math>,
 
<math>\rho={R_0\over12}</math>,
 
<math>C=D_0\cdot R_0</math>.

Latest revision as of 12:47, 23 November 2007

Avogadro's Number: N_A = 6.0221415e23 (1/mol)

Elementary Charge: e = 1.60217646e-19 C

1 kcal = 4184.00 J

1 kcal/mol = 6.94769e-21 J

1 mdyn = 1e-8 N

1 mdyn*Å = 1e-18 J = 143.933 kcal/mol

1 kcal/mol = 6.94768e-3 mdyn*Å

Number of units in simulation cell: n=rho*V*Na/M

Buckinghami potentsiaali valem:

[math]U(r)=A \cdot \exp\left(-{r\over\rho}\right)-{C\over r^6}[/math]

Lennard-Jonesi potentsiaali valem:

[math]U(r)=D_0\left[ \left({ R_0\over r} \right)^{12}-2\left({ R_0\over r }\right)^6 \right][/math]

UFF artiklist tulenevad valemid Buckinghami sobitamiseks Lennard-Jonesi potentsiaaliga:

[math]A=D_0e^{12}[/math],

[math]\rho={R_0\over12}[/math],

[math]C=D_0\cdot R_0[/math].