Transition Energy from T1g to T2g Calculator

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Coordination Chemistry

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Stabilization Energy

Jahn Teller Distortion

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Nephelauxatic Effect

✖Energy Difference is the difference in energy between the two ground state in Orgel Diagram.ⓘ Energy Difference [Δ]			+10% -10%
✖Configuration Interaction is the interaction from repulsion of like terms.ⓘ Configuration Interaction [CI]			+10% -10%

✖Transition Energy from T1g to T2g is the transition of energy from T1g to T2g.ⓘ Transition Energy from T1g to T2g [E_T1gtoT2gP]

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Formula

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Transition Energy from T1g to T2g

Formula

`"E"_{"T1gtoT2gP"} = (4/5*"Δ")+"CI"`

Example

`"4000Diopter"=(4/5*"4000Diopter")+"800Diopter"`

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Transition Energy from T1g to T2g Solution

STEP 0: Pre-Calculation Summary

Formula Used

Transition Energy from T1g to T2g = (4/5*Energy Difference)+Configuration Interaction
E_T1gtoT2gP = (4/5*Δ)+CI
This formula uses 3 Variables

Variables Used

Transition Energy from T1g to T2g - (Measured in Diopter) - Transition Energy from T1g to T2g is the transition of energy from T1g to T2g.
Energy Difference - (Measured in Diopter) - Energy Difference is the difference in energy between the two ground state in Orgel Diagram.
Configuration Interaction - (Measured in Diopter) - Configuration Interaction is the interaction from repulsion of like terms.

STEP 1: Convert Input(s) to Base Unit

Energy Difference: 4000 Diopter --> 4000 Diopter No Conversion Required
Configuration Interaction: 800 Diopter --> 800 Diopter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

E_T1gtoT2gP = (4/5*Δ)+CI --> (4/5*4000)+800

Evaluating ... ...

E_T1gtoT2gP = 4000

STEP 3: Convert Result to Output's Unit

4000 Diopter --> No Conversion Required

FINAL ANSWER

4000 Diopter <-- Transition Energy from T1g to T2g

(Calculation completed in 00.004 seconds)

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Created by Torsha_Paul

University of Calcutta (CU), Kolkata

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National University of Judicial Science (NUJS), Kolkata

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< 12 Stabilization Energy Calculators

Equilibrium Constant for Coordinate Complexes

Go Formation Constant for Coordinate Complexes = (Concentration of Complex Ion^Stoichiometric Coefficient of Complex Ion)/((Concentration of Metal in Complex^Stoichiometric Coefficient of Metal)*(Concentration of Lewis Bases^Stoichiometric Coefficient of Lewis Base))

Transition Energy from T1g to T1gP

Go Transition Energy from T1g to T1gP = (3/5*Energy Difference)+(15*Racah Parameter)+(2*Configuration Interaction)

Transition Energy from A2g to T1gP

Go Transition Energy from A2g to T1gP = (6/5*Energy Difference)+(15*Racah Parameter)+Configuration Interaction

Octahedral Site Stabilization Energy

Go Octahedral Site Stabilization Energy = Crystal Field Splitting Energy Octahedral-Crystal Field Splitting Energy Tetrahedral

Crystal Field Splitting Energy for Tetrahedral Complexes

Go Crystal Field Splitting Energy Tetrahedral = ((Electrons In Eg Orbitals*(-0.6))+(0.4*Electrons In T2g Orbital))*(4/9)

Crystal Field Activation Energy for Dissociative Reaction

Go CFAE Dissociative Substitution = Crystal Field Splitting Energy Octahedral-CFSE For Square Pyramidal Intermediate

Crystal Field Splitting Energy for Octahedral Complexes

Go Crystal Field Splitting Energy Octahedral = (Electrons In Eg Orbitals*0.6)+(-0.4*Electrons In T2g Orbital)

Solubility Product of Coordinate Complex

Go Solubility Product of Coordinate Complex = Formation Constant for Coordinate Complexes*Solubility Product

Crystal Field Activation Energy for Associative Reaction

Go CFAE Associative Substitution = Crystal Field Splitting Energy Octahedral-CFSE For Pentagonal Bipyramidal

Transition Energy from A2g to T1gF

Go Transition Energy from A2g to T1gF = (9/5*Energy Difference)-Configuration Interaction

Transition Energy from T1g to T2g

Go Transition Energy from T1g to T2g = (4/5*Energy Difference)+Configuration Interaction

Transition Energy from T1g to A2g

Go Transition Energy from T1g to A2g = (9/5*Energy Difference)+Configuration Interaction

Transition Energy from T1g to T2g Formula

Transition Energy from T1g to T2g = (4/5*Energy Difference)+Configuration Interaction
E_T1gtoT2gP = (4/5*Δ)+CI

What is the application of Orgel Diagram?

Orgel diagrams are useful for showing the energy levels of both high spin octahedral and tetrahedral transition metal ions. They only show the spin-allowed transitions. For complexes with D ground terms only one electronic transition is expected and the transition energy corresponds directly to D.

How to Calculate Transition Energy from T1g to T2g?

Transition Energy from T1g to T2g calculator uses Transition Energy from T1g to T2g = (4/5*Energy Difference)+Configuration Interaction to calculate the Transition Energy from T1g to T2g, Transition Energy from T1g to T2g is the transition of energy from T1g to T2g. This is determined from the orgel diagram. Orgel diagrams are useful for showing the energy levels of both high spin octahedral and tetrahedral transition metal ions. They only show the spin-allowed transitions. Transition Energy from T1g to T2g is denoted by E_T1gtoT2gP symbol.

How to calculate Transition Energy from T1g to T2g using this online calculator? To use this online calculator for Transition Energy from T1g to T2g, enter Energy Difference (Δ) & Configuration Interaction (CI) and hit the calculate button. Here is how the Transition Energy from T1g to T2g calculation can be explained with given input values -> 4000 = (4/5*4000)+800.

FAQ

What is Transition Energy from T1g to T2g?

Transition Energy from T1g to T2g is the transition of energy from T1g to T2g. This is determined from the orgel diagram. Orgel diagrams are useful for showing the energy levels of both high spin octahedral and tetrahedral transition metal ions. They only show the spin-allowed transitions and is represented as E_T1gtoT2gP = (4/5*Δ)+CI or Transition Energy from T1g to T2g = (4/5*Energy Difference)+Configuration Interaction. Energy Difference is the difference in energy between the two ground state in Orgel Diagram & Configuration Interaction is the interaction from repulsion of like terms.

How to calculate Transition Energy from T1g to T2g?

Transition Energy from T1g to T2g is the transition of energy from T1g to T2g. This is determined from the orgel diagram. Orgel diagrams are useful for showing the energy levels of both high spin octahedral and tetrahedral transition metal ions. They only show the spin-allowed transitions is calculated using Transition Energy from T1g to T2g = (4/5*Energy Difference)+Configuration Interaction. To calculate Transition Energy from T1g to T2g, you need Energy Difference (Δ) & Configuration Interaction (CI). With our tool, you need to enter the respective value for Energy Difference & Configuration Interaction 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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