Covalent Ionic Resonance Energy using Pauling's Electronegativity Solution

STEP 0: Pre-Calculation Summary
Formula Used
Covalent Ionic Resonance Energy for Xₚ = Pauling's Electronegativity^2
Δp = XP^2
This formula uses 2 Variables
Variables Used
Covalent Ionic Resonance Energy for Xₚ - (Measured in Joule) - The Covalent Ionic Resonance Energy for Xₚ is the kinetic energy produced as a resultant of large participation or orbitals or covalent–ionic mixing.
Pauling's Electronegativity - (Measured in Joule) - The Pauling's Electronegativity is described as “the power of an atom in a molecule to attract electrons to itself”.
STEP 1: Convert Input(s) to Base Unit
Pauling's Electronegativity: 7.24 Joule --> 7.24 Joule No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Δp = XP^2 --> 7.24^2
Evaluating ... ...
Δp = 52.4176
STEP 3: Convert Result to Output's Unit
52.4176 Joule --> No Conversion Required
FINAL ANSWER
52.4176 Joule <-- Covalent Ionic Resonance Energy for Xₚ
(Calculation completed in 00.004 seconds)

Credits

Created by Prerana Bakli
University of Hawaiʻi at Mānoa (UH Manoa), Hawaii, USA
Prerana Bakli has created this Calculator and 800+ more calculators!
Verified by Akshada Kulkarni
National Institute of Information Technology (NIIT), Neemrana
Akshada Kulkarni has verified this Calculator and 900+ more calculators!

11 Pauling's Electronegativity Calculators

Pauling's Electronegativity given Bond Energies
Go Pauling's Electronegativity = sqrt(Actual Bond Energy given Electronegativity-(sqrt(Bond Energy of A₂ Molecule*Bond Energy of B₂ Molecule)))
Pauling's Electronegativity given Individual Electronegativities
Go Xₚ given Individual Electronegativities = abs(Electronegativity of Element A-Electronegativity of Element B)
Covalent Radius given Pauling's Electronegativity
Go Covalent Radius = sqrt((0.359*Effective Nuclear Charge)/(Pauling's Electronegativity-0.744))
Pauling's Electronegativity given IE and EA
Go Pauling's Electronegativity given I.E and E.A = ((0.336/0.5)*(Ionization Energy+Electron Affinity))-0.2
Pauling's Electronegativity given Effective Nuclear Charge and Covalent Radius
Go Pauling's Electronegativity = ((0.359*Effective Nuclear Charge)/(Covalent Radius^2))+0.744
Effective Nuclear Charge given Pauling's Electronegativity
Go Effective Nuclear Charge = ((Pauling's Electronegativity-0.744)*(Covalent Radius^2))/0.359
Ionization Energy of Element using Pauling's Electronegativity
Go Ionization Energy = ((Pauling's Electronegativity+0.2)*(2/0.336))-Electron Affinity
Electron Affinity of element using Pauling's Electronegativity
Go Electron Affinity = ((Pauling's Electronegativity+0.2)*(2/0.336))-Ionization Energy
Covalent Ionic Resonance Energy using Pauling's Electronegativity
Go Covalent Ionic Resonance Energy for Xₚ = Pauling's Electronegativity^2
Pauling's Electronegativity from Mulliken's Electronegativity
Go Pauling's Electronegativity = (0.336*Mulliken's Electronegativity)-0.2
Pauling's Electronegativity from Allred Rochow's Electronegativity
Go Pauling's Electronegativity = Allred-Rochow's Electronegativity+0.744

Covalent Ionic Resonance Energy using Pauling's Electronegativity Formula

Covalent Ionic Resonance Energy for Xₚ = Pauling's Electronegativity^2
Δp = XP^2

What was Linus Pauling's contribution to electronegativity?

Linus Pauling described electronegativity as “the power of an atom in a molecule to attract electrons to itself.” Basically, the electronegativity of an atom is a relative value of that atom's ability to attract election density toward itself when it bonds to another atom. The higher the electronegativity of an element, the more that atom will attempt to pull electrons towards itself and away from any atom it bonds to. Linus Pauling was the original scientist to describe the phenomena of electronegativity. The best way to describe his method is to look at a hypothetical molecule that we will call XY. By comparing the measured X-Y bond energy with the theoretical X-Y bond energy (computed as the average of the X-X bond energy and the Y-Y bond energy), we can describe the relative affinities of these two atoms with respect to each other.

How to Calculate Covalent Ionic Resonance Energy using Pauling's Electronegativity?

Covalent Ionic Resonance Energy using Pauling's Electronegativity calculator uses Covalent Ionic Resonance Energy for Xₚ = Pauling's Electronegativity^2 to calculate the Covalent Ionic Resonance Energy for Xₚ, The Covalent Ionic Resonance Energy using Pauling's Electronegativity is the kinetic energy produced as a resultant of large participation or orbitals or covalent–ionic mixing. Covalent Ionic Resonance Energy for Xₚ is denoted by Δp symbol.

How to calculate Covalent Ionic Resonance Energy using Pauling's Electronegativity using this online calculator? To use this online calculator for Covalent Ionic Resonance Energy using Pauling's Electronegativity, enter Pauling's Electronegativity (XP) and hit the calculate button. Here is how the Covalent Ionic Resonance Energy using Pauling's Electronegativity calculation can be explained with given input values -> 52.4176 = 7.24^2.

FAQ

What is Covalent Ionic Resonance Energy using Pauling's Electronegativity?
The Covalent Ionic Resonance Energy using Pauling's Electronegativity is the kinetic energy produced as a resultant of large participation or orbitals or covalent–ionic mixing and is represented as Δp = XP^2 or Covalent Ionic Resonance Energy for Xₚ = Pauling's Electronegativity^2. The Pauling's Electronegativity is described as “the power of an atom in a molecule to attract electrons to itself”.
How to calculate Covalent Ionic Resonance Energy using Pauling's Electronegativity?
The Covalent Ionic Resonance Energy using Pauling's Electronegativity is the kinetic energy produced as a resultant of large participation or orbitals or covalent–ionic mixing is calculated using Covalent Ionic Resonance Energy for Xₚ = Pauling's Electronegativity^2. To calculate Covalent Ionic Resonance Energy using Pauling's Electronegativity, you need Pauling's Electronegativity (XP). With our tool, you need to enter the respective value for Pauling's Electronegativity 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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