Actual Bond Energy given Covalent Ionic Resonance Energy Calculator

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Electronegativity

Covalent Bonding

Ionic Bonding

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Allred Rochow's Electronegativity

Mulliken's Electronegativity

Pauling's Electronegativity

✖The Covalent Ionic Resonance Energy is the kinetic energy produced as a resultant of large participation or orbitals or covalent–ionic mixing.ⓘ Covalent Ionic Resonance Energy [Δ]			+10% -10%
✖The 100% Covalent Bond Energy is defined as the amount of energy required to break apart a mole of molecules containing pure covalent bond into its component atoms.ⓘ 100% Covalent Bond Energy [E_A-B(cov)]			+10% -10%

✖The Actual Bond Energy is defined as the amount of energy required to break apart a mole of molecules into its component atoms.ⓘ Actual Bond Energy given Covalent Ionic Resonance Energy [E_A-B]

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Formula

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Actual Bond Energy given Covalent Ionic Resonance Energy

Formula

`"E"_{"A-B"} = "Δ"+"E"_{"A-B(cov)"}`

Example

`"28.35J"="5J"+"23.35J"`

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Actual Bond Energy given Covalent Ionic Resonance Energy Solution

STEP 0: Pre-Calculation Summary

Formula Used

Actual Bond Energy = Covalent Ionic Resonance Energy+100% Covalent Bond Energy
E_A-B = Δ+E_A-B(cov)
This formula uses 3 Variables

Variables Used

Actual Bond Energy - (Measured in Joule) - The Actual Bond Energy is defined as the amount of energy required to break apart a mole of molecules into its component atoms.
Covalent Ionic Resonance Energy - (Measured in Joule) - The Covalent Ionic Resonance Energy is the kinetic energy produced as a resultant of large participation or orbitals or covalent–ionic mixing.
100% Covalent Bond Energy - (Measured in Joule) - The 100% Covalent Bond Energy is defined as the amount of energy required to break apart a mole of molecules containing pure covalent bond into its component atoms.

STEP 1: Convert Input(s) to Base Unit

Covalent Ionic Resonance Energy: 5 Joule --> 5 Joule No Conversion Required
100% Covalent Bond Energy: 23.35 Joule --> 23.35 Joule No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

E_A-B = Δ+E_A-B(cov) --> 5+23.35

Evaluating ... ...

E_A-B = 28.35

STEP 3: Convert Result to Output's Unit

28.35 Joule --> No Conversion Required

FINAL ANSWER

28.35 Joule <-- Actual Bond Energy

(Calculation completed in 00.004 seconds)

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Created by Prerana Bakli

University of Hawaiʻi at Mānoa (UH Manoa), Hawaii, USA

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National Institute of Information Technology (NIIT), Neemrana

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< 7 Electronegativity Calculators

Covalent Ionic Resonance Energy using Bond Energies

Go Covalent Ionic Resonance Energy = Actual Bond Energy-sqrt(Bond Energy of A₂ Molecule*Bond Energy of B₂ Molecule)

Fractional Charge

Go Charge Fraction = (Dipole Moment)/(Charge of electron in Statcoulomb*Bond Length of Diatomic Molecule)

100 percent Covalent Bond Energy as Geometric Mean

Go 100% Covalent Bond Energy = sqrt(Bond Energy of A₂ Molecule*Bond Energy of B₂ Molecule)

100 percent Covalent Bond Energy as Arithmetic Mean

Go 100% Covalent Bond Energy = 0.5*(Bond Energy of A₂ Molecule+Bond Energy of B₂ Molecule)

100 percent Covalent Bond Energy given Covalent Ionic Resonance Energy

Go 100% Covalent Bond Energy = Actual Bond Energy-Covalent Ionic Resonance Energy

Actual Bond Energy given Covalent Ionic Resonance Energy

Go Actual Bond Energy = Covalent Ionic Resonance Energy+100% Covalent Bond Energy

Covalent Ionic Resonance Energy

Go Covalent Ionic Resonance Energy = Actual Bond Energy-100% Covalent Bond Energy

Actual Bond Energy given Covalent Ionic Resonance Energy Formula

Actual Bond Energy = Covalent Ionic Resonance Energy+100% Covalent Bond Energy
E_A-B = Δ+E_A-B(cov)

What is the physical origin of Covalent Ionic Resonance Energy?

This study uses valence bond (VB) theory to analyze in detail the previously established finding that alongside the two classical bond families of covalent and ionic bonds, which describe the electron-pair bond, there exists a distinct class of charge-shift bonds (CS-bonds) in which the fluctuation of the electron pair density plays a dominant role. Such bonds are characterized by weak binding, or even a repulsive, covalent component, and by a large covalent–ionic resonance energy RECS that is responsible for the major part, or even for the totality, of the bonding energy. In the present work, the nature of CS-bonding and its fundamental mechanisms are analyzed in detail by means of a VB study.

How to Calculate Actual Bond Energy given Covalent Ionic Resonance Energy?

Actual Bond Energy given Covalent Ionic Resonance Energy calculator uses Actual Bond Energy = Covalent Ionic Resonance Energy+100% Covalent Bond Energy to calculate the Actual Bond Energy, The Actual Bond Energy given Covalent Ionic Resonance Energy is defined as the amount of energy required to break apart a mole of molecules into its component atoms. Actual Bond Energy is denoted by E_A-B symbol.

How to calculate Actual Bond Energy given Covalent Ionic Resonance Energy using this online calculator? To use this online calculator for Actual Bond Energy given Covalent Ionic Resonance Energy, enter Covalent Ionic Resonance Energy (Δ) & 100% Covalent Bond Energy (E_A-B(cov)) and hit the calculate button. Here is how the Actual Bond Energy given Covalent Ionic Resonance Energy calculation can be explained with given input values -> 28.35 = 5+23.35.

FAQ

What is Actual Bond Energy given Covalent Ionic Resonance Energy?

The Actual Bond Energy given Covalent Ionic Resonance Energy is defined as the amount of energy required to break apart a mole of molecules into its component atoms and is represented as E_A-B = Δ+E_A-B(cov) or Actual Bond Energy = Covalent Ionic Resonance Energy+100% Covalent Bond Energy. The Covalent Ionic Resonance Energy is the kinetic energy produced as a resultant of large participation or orbitals or covalent–ionic mixing & The 100% Covalent Bond Energy is defined as the amount of energy required to break apart a mole of molecules containing pure covalent bond into its component atoms.

How to calculate Actual Bond Energy given Covalent Ionic Resonance Energy?

The Actual Bond Energy given Covalent Ionic Resonance Energy is defined as the amount of energy required to break apart a mole of molecules into its component atoms is calculated using Actual Bond Energy = Covalent Ionic Resonance Energy+100% Covalent Bond Energy. To calculate Actual Bond Energy given Covalent Ionic Resonance Energy, you need Covalent Ionic Resonance Energy (Δ) & 100% Covalent Bond Energy (E_A-B(cov)). With our tool, you need to enter the respective value for Covalent Ionic Resonance Energy & 100% Covalent Bond Energy and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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