Mod:sy4615
From ChemWiki
| NH3 | |
|---|---|
| r(E-X) | |
| θ(X-E-X) |
nh3 optimisation File Name SHYANT_NH3_OPTF_POP File Type .log Calculation Type FREQ Calculation Method RB3LYP Basis Set 6-31G(d,p) Charge 0 Spin Singlet E(RB3LYP) -56.55776873 a.u. RMS Gradient Norm 0.00000323 a.u. Imaginary Freq Dipole Moment 1.8465 Debye Point Group C3V Job cpu time: 0 days 0 hours 0 minutes 9.0 seconds.
| test molecule |
The charge on the nitrogen atom in ammonia: -1.125 The charge on the hydrogen atom in ammonia: 0.375. The expected value for charge on nitrogen is about three times more than on hydrogen because the electronegative of nitrogen is also triple the value of hydrogen.
Basic summary for N2
Title Card Required File Name SHyant_n2_optf_pop File Type .log Calculation Type FREQ Calculation Method RB3LYP Basis Set 6-31G(d,p) Charge 0 Spin Singlet E(RB3LYP) -109.52412868 a.u. RMS Gradient Norm 0.00000060 a.u. Imaginary Freq 0 Dipole Moment 0.0000 Debye Point Group D*H Job cpu time: 0 days 0 hours 0 minutes 7.0 seconds.
The frequency is 2457.33.
Basic summary for H2
Title Card Required File Name SHyant_h2_optf_pop File Type .log Calculation Type FREQ Calculation Method RB3LYP Basis Set 6-31G(d,p) Charge 0 Spin Singlet E(RB3LYP) -1.17853936 a.u. RMS Gradient Norm 0.00000017 a.u. Imaginary Freq 0 Dipole Moment 0.0000 Debye Point Group D*H Job cpu time: 0 days 0 hours 0 minutes 6.0 seconds.
The frequency is 4465.68.
E(NH3)=-56.55776873 2*E(NH3)=-113.11553746 E(N2)=-109.52412868 E(H2)=-1.17853936 3*E(H2)=-3.53561808 ΔE=2*E(NH3)-[E(N2)+3*E(H2)]=-0.0557907
