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Chemistry
Distance of Closest Approach in Chemistry Formulas
Distance of Closest Approach is the distance to which an alpha particle comes closer to the nucleus. And is denoted by r
0
. Distance of Closest Approach is usually measured using the Angstrom for Length. Note that the value of Distance of Closest Approach is always negative.
Formulas to find Distance of Closest Approach in Chemistry
f
x
Distance of closest approach
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f
x
Distance of Closest Approach using Born Lande equation
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f
x
Distance of Closest Approach using Born-Lande Equation without Madelung Constant
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f
x
Distance of Closest Approach using Electrostatic Potential
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f
x
Distance of Closest Approach using Madelung Energy
Go
Chemistry formulas that make use of Distance of Closest Approach
f
x
Velocity of alpha particle using distance of closest approach
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f
x
Lattice Energy using Born Lande Equation
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f
x
Born Exponent using Born Lande Equation
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f
x
Electrostatic Potential Energy between pair of Ions
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f
x
Repulsive Interaction
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f
x
Repulsive Interaction Constant
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f
x
Born Exponent using Repulsive Interaction
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f
x
Total Energy of Ion given Charges and Distances
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f
x
Repulsive Interaction Constant using Total Energy of Ion
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f
x
Repulsive Interaction Constant given Madelung constant
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f
x
Minimum Potential Energy of Ion
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f
x
Lattice Energy using Born-Mayer equation
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f
x
Constant depending on compressibility using Born-Mayer equation
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f
x
Lattice Energy using Born-Lande equation using Kapustinskii Approximation
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f
x
Born Exponent using Born-Lande equation without Madelung Constant
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f
x
Repulsive Interaction using Total Energy of ion given charges and distances
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f
x
Repulsive Interaction Constant given Total Energy of Ion and Madelung Energy
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f
x
Madelung Constant given Repulsive Interaction Constant
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f
x
Madelung Constant using Born Lande Equation
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f
x
Madelung Constant using Born-Mayer equation
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f
x
Madelung Constant using Madelung Energy
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f
x
Madelung Constant using Total Energy of Ion
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f
x
Madelung Constant using Total Energy of Ion given Repulsive Interaction
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f
x
Madelung Energy
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f
x
Madelung Energy using Total Energy of Ion given Distance
Go
List of variables in Chemistry formulas
f
x
Atomic Number
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f
x
Velocity of alpha particle
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f
x
Madelung Constant
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f
x
Charge of Cation
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f
x
Charge of Anion
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f
x
Born Exponent
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f
x
Lattice Energy
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f
x
Number of Ions
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f
x
Charge
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f
x
Electrostatic Potential Energy between Ion Pair
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f
x
Madelung Energy
Go
FAQ
What is the Distance of Closest Approach?
Distance of Closest Approach is the distance to which an alpha particle comes closer to the nucleus. Distance of Closest Approach is usually measured using the Angstrom for Length. Note that the value of Distance of Closest Approach is always negative.
Can the Distance of Closest Approach be negative?
Yes, the Distance of Closest Approach, measured in Length can be negative.
What unit is used to measure Distance of Closest Approach?
Distance of Closest Approach is usually measured using the Angstrom[A] for Length. Meter[A], Millimeter[A], Kilometer[A] are the few other units in which Distance of Closest Approach can be measured.
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