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H-bond acceptor count of Arrhenius acids

Input interpretation

Arrhenius acids | H-bond acceptor count
Arrhenius acids | H-bond acceptor count

Summary

median | 2 atoms highest | 4 atoms (3 chemicals) lowest | 0 atoms (3 chemicals) distribution |
median | 2 atoms highest | 4 atoms (3 chemicals) lowest | 0 atoms (3 chemicals) distribution |

H-bond acceptors in place

H-bond acceptors in place
H-bond acceptors in place

H-bond acceptor count rankings

1 | hydrofluoric acid | 0 atoms 2 | nitric acid | 0 atoms 3 | hydrochloric acid | 0 atoms 4 | hydrogen cyanide | 1 atom 5 | carbon dioxide | 2 atoms 6 | acetic acid | 2 atoms 7 | chloroacetic acid | 2 atoms 8 | sodium bisulfate | 4 atoms 9 | sulfuric acid | 4 atoms 10 | perchloric acid | 4 atoms
1 | hydrofluoric acid | 0 atoms 2 | nitric acid | 0 atoms 3 | hydrochloric acid | 0 atoms 4 | hydrogen cyanide | 1 atom 5 | carbon dioxide | 2 atoms 6 | acetic acid | 2 atoms 7 | chloroacetic acid | 2 atoms 8 | sodium bisulfate | 4 atoms 9 | sulfuric acid | 4 atoms 10 | perchloric acid | 4 atoms

H-bond acceptors elemental composition

| perchloric acid | hydrochloric acid | sulfuric acid | nitric acid | chloroacetic acid | hydrofluoric acid | hydrogen cyanide | acetic acid | carbon dioxide | sodium bisulfate N (nitrogen) | | | | | | | 1 | | | O (oxygen) | 4 | | 4 | | 2 | | | 2 | 2 | 4
| perchloric acid | hydrochloric acid | sulfuric acid | nitric acid | chloroacetic acid | hydrofluoric acid | hydrogen cyanide | acetic acid | carbon dioxide | sodium bisulfate N (nitrogen) | | | | | | | 1 | | | O (oxygen) | 4 | | 4 | | 2 | | | 2 | 2 | 4

Corresponding quantity

Moles of atoms from n = N/N_A: | 3.3×10^-24 mol (moles)
Moles of atoms from n = N/N_A: | 3.3×10^-24 mol (moles)

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