LCM of two numbers

Born Exponent using Born Lande Equation Calculator

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Ionic Bonding Covalent Bonding Electronegativity

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Lattice Energy

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Distance of Closest Approach Madelung Constant

✖The Lattice Energy of a crystalline solid is a measure of the energy released when ions are combined to make a compound.ⓘ Lattice Energy [U]			+10% -10%
✖Distance of Closest Approach is the distance to which an alpha particle comes closer to the nucleus.ⓘ Distance of Closest Approach [r₀]			+10% -10%
✖The Madelung constant is used in determining the electrostatic potential of a single ion in a crystal by approximating the ions by point charges.ⓘ Madelung Constant [M]			+10% -10%
✖The Charge of Cation is the positive charge over a cation with fewer electron than the respective atom.ⓘ Charge of Cation [z⁺]			+10% -10%
✖The Charge of Anion is the negative charge over an anion with more electron than the respective atom.ⓘ Charge of Anion [z^-]			+10% -10%

✖The Born Exponent is a number between 5 and 12, determined experimentally by measuring the compressibility of the solid, or derived theoretically.ⓘ Born Exponent using Born Lande Equation [n_born]

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Born Exponent using Born Lande Equation Solution

STEP 0: Pre-Calculation Summary

Formula Used

Born Exponent = 1/(1-(-Lattice Energy*4*pi*[Permitivity-vacuum]*Distance of Closest Approach)/([Avaga-no]*Madelung Constant*([Charge-e]^2)*Charge of Cation*Charge of Anion))
n_born = 1/(1-(-U*4*pi*[Permitivity-vacuum]*r₀)/([Avaga-no]*M*([Charge-e]^2)*z⁺*z^-))
This formula uses 4 Constants, 6 Variables

Constants Used

[Permitivity-vacuum] - Permittivity of vacuum Value Taken As 8.85E-12
[Avaga-no] - Avogadro’s number Value Taken As 6.02214076E+23
[Charge-e] - Charge of electron Value Taken As 1.60217662E-19
pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288

Variables Used

Born Exponent - The Born Exponent is a number between 5 and 12, determined experimentally by measuring the compressibility of the solid, or derived theoretically.
Lattice Energy - (Measured in Joule per Mole) - The Lattice Energy of a crystalline solid is a measure of the energy released when ions are combined to make a compound.
Distance of Closest Approach - (Measured in Meter) - Distance of Closest Approach is the distance to which an alpha particle comes closer to the nucleus.
Madelung Constant - The Madelung constant is used in determining the electrostatic potential of a single ion in a crystal by approximating the ions by point charges.
Charge of Cation - (Measured in Coulomb) - The Charge of Cation is the positive charge over a cation with fewer electron than the respective atom.
Charge of Anion - (Measured in Coulomb) - The Charge of Anion is the negative charge over an anion with more electron than the respective atom.

STEP 1: Convert Input(s) to Base Unit

Lattice Energy: 3500 Joule per Mole --> 3500 Joule per Mole No Conversion Required
Distance of Closest Approach: 60 Angstrom --> 6E-09 Meter (Check conversion here)
Madelung Constant: 1.7 --> No Conversion Required
Charge of Cation: 4 Coulomb --> 4 Coulomb No Conversion Required
Charge of Anion: 3 Coulomb --> 3 Coulomb No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

n_born = 1/(1-(-U*4*pi*[Permitivity-vacuum]*r₀)/([Avaga-no]*M*([Charge-e]^2)*z⁺*z^-)) --> 1/(1-(-3500*4*pi*[Permitivity-vacuum]*6E-09)/([Avaga-no]*1.7*([Charge-e]^2)*4*3))

Evaluating ... ...

n_born = 0.99264866619925

STEP 3: Convert Result to Output's Unit

0.99264866619925 --> No Conversion Required

FINAL ANSWER

0.99264866619925 ≈ 0.992649 <-- Born Exponent

(Calculation completed in 00.008 seconds)

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< Lattice Energy Calculators

Lattice Energy using Born Lande Equation

LaTeX Go Lattice Energy = -([Avaga-no]*Madelung Constant*Charge of Cation*Charge of Anion*([Charge-e]^2)*(1-(1/Born Exponent)))/(4*pi*[Permitivity-vacuum]*Distance of Closest Approach)

Born Exponent using Born Lande Equation

LaTeX Go Born Exponent = 1/(1-(-Lattice Energy*4*pi*[Permitivity-vacuum]*Distance of Closest Approach)/([Avaga-no]*Madelung Constant*([Charge-e]^2)*Charge of Cation*Charge of Anion))

Electrostatic Potential Energy between pair of Ions

LaTeX Go Electrostatic Potential Energy between Ion Pair = (-(Charge^2)*([Charge-e]^2))/(4*pi*[Permitivity-vacuum]*Distance of Closest Approach)

Repulsive Interaction

LaTeX Go Repulsive Interaction = Repulsive Interaction Constant/(Distance of Closest Approach^Born Exponent)

Born Exponent using Born Lande Equation Formula

LaTeX Go

What is Born–Landé equation?

The Born–Landé equation is a means of calculating the lattice energy of a crystalline ionic compound. In 1918 Max Born and Alfred Landé proposed that the lattice energy could be derived from the electrostatic potential of the ionic lattice and a repulsive potential energy term. The ionic lattice is modeled as an assembly of hard elastic spheres which are compressed together by the mutual attraction of the electrostatic charges on the ions. They achieve the observed equilibrium distance apart due to a balancing short range repulsion.

How to Calculate Born Exponent using Born Lande Equation?

Born Exponent using Born Lande Equation calculator uses Born Exponent = 1/(1-(-Lattice Energy*4*pi*[Permitivity-vacuum]*Distance of Closest Approach)/([Avaga-no]*Madelung Constant*([Charge-e]^2)*Charge of Cation*Charge of Anion)) to calculate the Born Exponent, The Born exponent using Born Lande equation is typically a number between 5 and 12, determined experimentally by measuring the compressibility of the solid, or derived theoretically. Born Exponent is denoted by n_born symbol.

How to calculate Born Exponent using Born Lande Equation using this online calculator? To use this online calculator for Born Exponent using Born Lande Equation, enter Lattice Energy (U), Distance of Closest Approach (r₀), Madelung Constant (M), Charge of Cation (z⁺) & Charge of Anion (z^-) and hit the calculate button. Here is how the Born Exponent using Born Lande Equation calculation can be explained with given input values -> 0.992649 = 1/(1-(-3500*4*pi*[Permitivity-vacuum]*6E-09)/([Avaga-no]*1.7*([Charge-e]^2)*4*3)).

FAQ

What is Born Exponent using Born Lande Equation?

The Born exponent using Born Lande equation is typically a number between 5 and 12, determined experimentally by measuring the compressibility of the solid, or derived theoretically and is represented as n_born = 1/(1-(-U*4*pi*[Permitivity-vacuum]*r₀)/([Avaga-no]*M*([Charge-e]^2)*z⁺*z^-)) or Born Exponent = 1/(1-(-Lattice Energy*4*pi*[Permitivity-vacuum]*Distance of Closest Approach)/([Avaga-no]*Madelung Constant*([Charge-e]^2)*Charge of Cation*Charge of Anion)). The Lattice Energy of a crystalline solid is a measure of the energy released when ions are combined to make a compound, Distance of Closest Approach is the distance to which an alpha particle comes closer to the nucleus, The Madelung constant is used in determining the electrostatic potential of a single ion in a crystal by approximating the ions by point charges, The Charge of Cation is the positive charge over a cation with fewer electron than the respective atom & The Charge of Anion is the negative charge over an anion with more electron than the respective atom.

How to calculate Born Exponent using Born Lande Equation?

The Born exponent using Born Lande equation is typically a number between 5 and 12, determined experimentally by measuring the compressibility of the solid, or derived theoretically is calculated using Born Exponent = 1/(1-(-Lattice Energy*4*pi*[Permitivity-vacuum]*Distance of Closest Approach)/([Avaga-no]*Madelung Constant*([Charge-e]^2)*Charge of Cation*Charge of Anion)). To calculate Born Exponent using Born Lande Equation, you need Lattice Energy (U), Distance of Closest Approach (r₀), Madelung Constant (M), Charge of Cation (z⁺) & Charge of Anion (z^-). With our tool, you need to enter the respective value for Lattice Energy, Distance of Closest Approach, Madelung Constant, Charge of Cation & Charge of Anion and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

How many ways are there to calculate Born Exponent?

In this formula, Born Exponent uses Lattice Energy, Distance of Closest Approach, Madelung Constant, Charge of Cation & Charge of Anion. We can use 2 other way(s) to calculate the same, which is/are as follows -

Born Exponent = (log10(Repulsive Interaction Constant/Repulsive Interaction))/log10(Distance of Closest Approach)
Born Exponent = 1/(1-(-Lattice Energy*4*pi*[Permitivity-vacuum]*Distance of Closest Approach)/([Avaga-no]*Number of Ions*0.88*([Charge-e]^2)*Charge of Cation*Charge of Anion))

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