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Covalent Bonding

- Bond Angle between Bond pair and Lone pair of electrons in terms of p character
- Bond Angle between Bond pair and Lone pair of electrons in terms of s character
- Bond Order for Molecules Showing Resonance
- Formal Charge on an atom
- Fraction of p character given bond angle
- Fraction of s character given bond angle
- Number of bonding electrons given Formal Charge
- Number of nonbonding electrons given Formal Charge
- Number of valence electrons given Formal Charge
- Percentage of p character given bond angle
- Percentage of s character given bond angle
- 3 More formulas!

Scales of Electronegativity

- 100 percent Covalent Bond Energy as arithmetic mean
- 100 percent Covalent Bond Energy as geometric mean
- 100 percent Covalent Bond Energy given Covalent Ionic Resonance Energy
- Actual Bond Energy given Covalent Ionic Resonance Energy
- Allred Rochow's Electronegativity from Mulliken's Electronegativity
- Allred Rochow's Electronegativity from Pauling's Electronegativity
- Covalent Ionic Resonance Energy
- Covalent Ionic Resonance Energy using Bond Energies
- Covalent Ionic Resonance Energy using Pauling's Electronegativity
- Covalent radius given Pauling's Electronegativity
- Effective Nuclear Charge given Pauling's Electronegativity
- 16 More formulas!

Allred Rochow's Electronegativity

- Allred Rochow's Electronegativity given IE and EA
- Allred Rochow's Electronegativity in terms of bond energies
- Allred Rochow's Electronegativity of an element
- Covalent radius from Allred Rochow's Electronegativity
- Effective Nuclear Charge from Allred Rochow's Electronegativity
- Electron Affinity of an element using Allred Rochow's Electronegativity
- Ionization Energy of an element using Allred Rochow's Electronegativity

Ionic Bonding

Lattice Energy

- Born exponent using Born Landé equation
- Born exponent using Born Landé equation when Madelung constant is not given
- Born exponent using Repulsive Interaction
- Constant depending on compressibility using Born–Mayer equation
- Distance of closest approach using Born Landé equation
- Distance of closest approach using Born Landé equation when Madelung constant is not given
- Distance of closest approach using Electrostatic potential
- Distance of closest approach using Madelung Energy
- Electrostatic potential energy between a pair of ions
- Lattice Energy using Born–Landé equation
- Lattice Energy using Born–Landé equation using Kapustinskii approximation
- 29 More formulas!

Chemical Bonding calculators give you a list of online Chemical Bonding calculators. A tool perform calculations on the concepts and applications for Chemical Bonding calculations.

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