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name of acetic acid vs water

Input interpretation

acetic acid | water
acetic acid | water

Chemical names and formulas

 | acetic acid | water formula | CH_3CO_2H | H_2O Hill formula | C_2H_4O_2 | H_2O name | acetic acid | water IUPAC name | acetic acid | water alternate names | acetic acid, glacial | ethanoic acid | ethylic acid | glacial acetic acid | methanecarboxylic acid | vinegar acid | dihydrogen monoxide | distilled water | hydrogen hydroxide | oxidane mass fractions | C (carbon) 40% | H (hydrogen) 6.71% | O (oxygen) 53.3% | H (hydrogen) 11.2% | O (oxygen) 88.8%
| acetic acid | water formula | CH_3CO_2H | H_2O Hill formula | C_2H_4O_2 | H_2O name | acetic acid | water IUPAC name | acetic acid | water alternate names | acetic acid, glacial | ethanoic acid | ethylic acid | glacial acetic acid | methanecarboxylic acid | vinegar acid | dihydrogen monoxide | distilled water | hydrogen hydroxide | oxidane mass fractions | C (carbon) 40% | H (hydrogen) 6.71% | O (oxygen) 53.3% | H (hydrogen) 11.2% | O (oxygen) 88.8%

Structure diagrams

  | acetic acid | water vertex count | 4 | 1 edge count | 4 | 2 Schultz index | 36 | 0 Wiener index | 9 | 0 Hosoya index | 4 | 1 Balaban index | 2.324 | 0
| acetic acid | water vertex count | 4 | 1 edge count | 4 | 2 Schultz index | 36 | 0 Wiener index | 9 | 0 Hosoya index | 4 | 1 Balaban index | 2.324 | 0

3D structure

3D structure
3D structure

Basic properties

 | acetic acid | water molar mass | 60.052 g/mol | 18.015 g/mol phase | liquid (at STP) | liquid (at STP) melting point | 16.2 °C | 0 °C boiling point | 117.5 °C | 99.9839 °C density | 1.049 g/cm^3 | 1 g/cm^3 solubility in water | miscible |  dielectric constant | 6.17 | 80.1
| acetic acid | water molar mass | 60.052 g/mol | 18.015 g/mol phase | liquid (at STP) | liquid (at STP) melting point | 16.2 °C | 0 °C boiling point | 117.5 °C | 99.9839 °C density | 1.049 g/cm^3 | 1 g/cm^3 solubility in water | miscible | dielectric constant | 6.17 | 80.1

Hydrophobicity and permeability properties

 | acetic acid predicted LogP hydrophobicity | -0.12 experimental LogS | 1.22 predicted LogS | 0.73
| acetic acid predicted LogP hydrophobicity | -0.12 experimental LogS | 1.22 predicted LogS | 0.73

Liquid properties

 | acetic acid | water density | 1.049 g/cm^3 | 1 g/cm^3 vapor pressure | 11.4 mmHg | 17.54 mmHg dynamic viscosity | 0.001056 Pa s | 8.9×10^-4 Pa s surface tension | 0.0288 N/m | 0.0728 N/m refractive index | 1.371 | 1.333 UV cutoff wavelength | 260 nm | 191 nm
| acetic acid | water density | 1.049 g/cm^3 | 1 g/cm^3 vapor pressure | 11.4 mmHg | 17.54 mmHg dynamic viscosity | 0.001056 Pa s | 8.9×10^-4 Pa s surface tension | 0.0288 N/m | 0.0728 N/m refractive index | 1.371 | 1.333 UV cutoff wavelength | 260 nm | 191 nm

Units

Thermodynamic properties

 | acetic acid | water specific heat of vaporization | 0.871 kJ/g (kilojoules per gram) | 2.23 kJ/g (kilojoules per gram) specific heat of fusion | 0.1953 kJ/g (kilojoules per gram) | 0.334 kJ/g (kilojoules per gram) critical temperature | 594.7 K (kelvins) | 647.14 K (kelvins) critical pressure | 5.791 MPa (megapascals) | 22.064 MPa (megapascals) compressibility factor | 0.2 (at critical conditions) | 0.233 (at critical conditions)
| acetic acid | water specific heat of vaporization | 0.871 kJ/g (kilojoules per gram) | 2.23 kJ/g (kilojoules per gram) specific heat of fusion | 0.1953 kJ/g (kilojoules per gram) | 0.334 kJ/g (kilojoules per gram) critical temperature | 594.7 K (kelvins) | 647.14 K (kelvins) critical pressure | 5.791 MPa (megapascals) | 22.064 MPa (megapascals) compressibility factor | 0.2 (at critical conditions) | 0.233 (at critical conditions)