Number of Geometrical Isomers for Symmetrical Molecule with Even Stereocenters Calculator

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✖Number of Even Stereogenic Centers of a molecule is the number of atoms, axes or planes that are the focus of stereoisomerism.ⓘ Number of Even Stereogenic Centers [n_even]

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✖GI of Symmetrical Molecule with Even Stereocenter occur when you have restricted rotation somewhere in a molecule.ⓘ Number of Geometrical Isomers for Symmetrical Molecule with Even Stereocenters [GI_{sym_ev}]

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Formula

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Number of Geometrical Isomers for Symmetrical Molecule with Even Stereocenters

Formula

`"GI"_{"sym_ev"} = 2^("n"_{"even"}-1)+2^(("n"_{"even"}/2)-1)`

Example

`"3"=2^("2"-1)+2^(("2"/2)-1)`

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Number of Geometrical Isomers for Symmetrical Molecule with Even Stereocenters Solution

STEP 0: Pre-Calculation Summary

Formula Used

GI of Symmetrical Molecule with Even Stereocenter = 2^(Number of Even Stereogenic Centers-1)+2^((Number of Even Stereogenic Centers/2)-1)
GI_{sym_ev} = 2^(n_even-1)+2^((n_even/2)-1)
This formula uses 2 Variables

Variables Used

GI of Symmetrical Molecule with Even Stereocenter - GI of Symmetrical Molecule with Even Stereocenter occur when you have restricted rotation somewhere in a molecule.
Number of Even Stereogenic Centers - Number of Even Stereogenic Centers of a molecule is the number of atoms, axes or planes that are the focus of stereoisomerism.

STEP 1: Convert Input(s) to Base Unit

Number of Even Stereogenic Centers: 2 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

GI_{sym_ev} = 2^(n_even-1)+2^((n_even/2)-1) --> 2^(2-1)+2^((2/2)-1)

Evaluating ... ...

GI_{sym_ev} = 3

STEP 3: Convert Result to Output's Unit

3 --> No Conversion Required

FINAL ANSWER

3 <-- GI of Symmetrical Molecule with Even Stereocenter

(Calculation completed in 00.004 seconds)

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< 11 Isomerism Calculators

Number of Geometrical Isomers for Symmetrical Molecule with Even Stereocenters

Go GI of Symmetrical Molecule with Even Stereocenter = 2^(Number of Even Stereogenic Centers-1)+2^((Number of Even Stereogenic Centers/2)-1)

Number of Geometrical Isomers for Symmetrical Molecule with Odd Stereocenters

Go GI of Symmetrical Molecule with Odd Stereocenter = 2^(Number Of Odd Stereogenic Centers-1)+2^((Number Of Odd Stereogenic Centers-1)/2)

Number of Enantiomers for Symmetrical Molecule with Odd Chiral Centers

Go Enantiomers For Sym Molecule With Odd Chirality = 2^(Odd Chiral Centers-1)-2^((Odd Chiral Centers-1)/2)

Number of Optical Isomers for Symmetrical Molecule with Even Chiral Centers

Go OI for Sym Molecule with Even Chirality = 2^(Even Chiral Centers-1)+2^((Even Chiral Centers/2)-1)

Number of Geometrical Isomers for Unsymmetrical Molecule

Go Geometrical Isomers of Unsymmetrical Molecule = 2^Number Of Odd Stereogenic Centers

Number of Mesomers for Symmetrical Molecule with Even Chiral Centers

Go Mesomers for Sym Molecule with Even Chirality = 2^((Even Chiral Centers/2)-1)

Number of Enantiomers for Symmetrical Molecule with Even Chiral Centers

Go Enantiomers For Sym Molecule With Even Chirality = 2^(Even Chiral Centers-1)

Number of Mesomers for Symmetrical Molecule with Odd Chiral Centers

Go Mesomers for Sym Molecule with Odd Chirality = 2^((Odd Chiral Centers-1)/2)

Number of Optical Isomers for Unsymmetrical Molecule

Go Optically Active Forms Of Unsymmetrical Molecules = 2^Chiral Center

Number of Optical Isomers for Symmetrical Molecule with Odd Chiral Centers

Go OI for Sym Molecule with Odd Chirality = 2^(Odd Chiral Centers-1)

Number of Enantiomeric Pairs for Unsymmetrical Molecule

Go Enantiomeric Pairs = 2^(Chiral Center-1)

Number of Geometrical Isomers for Symmetrical Molecule with Even Stereocenters Formula

GI of Symmetrical Molecule with Even Stereocenter = 2^(Number of Even Stereogenic Centers-1)+2^((Number of Even Stereogenic Centers/2)-1)
GI_{sym_ev} = 2^(n_even-1)+2^((n_even/2)-1)

How to identify Geometrical Isomers?

While identifying the geometrical isomers it is important to restrict the rotation of the carbon-carbon double bond. A main criteria of having geometrical isomerism is to have different groups attached to the carbon atoms.

How to Calculate Number of Geometrical Isomers for Symmetrical Molecule with Even Stereocenters?

Number of Geometrical Isomers for Symmetrical Molecule with Even Stereocenters calculator uses GI of Symmetrical Molecule with Even Stereocenter = 2^(Number of Even Stereogenic Centers-1)+2^((Number of Even Stereogenic Centers/2)-1) to calculate the GI of Symmetrical Molecule with Even Stereocenter, The Number of Geometrical Isomers for Symmetrical Molecule with Even Stereocenters formula is defined as the isomers which differ by the arrangement along the double bond ring and other rigid structure. GI of Symmetrical Molecule with Even Stereocenter is denoted by GI_{sym_ev} symbol.

How to calculate Number of Geometrical Isomers for Symmetrical Molecule with Even Stereocenters using this online calculator? To use this online calculator for Number of Geometrical Isomers for Symmetrical Molecule with Even Stereocenters, enter Number of Even Stereogenic Centers (n_even) and hit the calculate button. Here is how the Number of Geometrical Isomers for Symmetrical Molecule with Even Stereocenters calculation can be explained with given input values -> 3 = 2^(2-1)+2^((2/2)-1).

FAQ

What is Number of Geometrical Isomers for Symmetrical Molecule with Even Stereocenters?

The Number of Geometrical Isomers for Symmetrical Molecule with Even Stereocenters formula is defined as the isomers which differ by the arrangement along the double bond ring and other rigid structure and is represented as GI_{sym_ev} = 2^(n_even-1)+2^((n_even/2)-1) or GI of Symmetrical Molecule with Even Stereocenter = 2^(Number of Even Stereogenic Centers-1)+2^((Number of Even Stereogenic Centers/2)-1). Number of Even Stereogenic Centers of a molecule is the number of atoms, axes or planes that are the focus of stereoisomerism.

How to calculate Number of Geometrical Isomers for Symmetrical Molecule with Even Stereocenters?

The Number of Geometrical Isomers for Symmetrical Molecule with Even Stereocenters formula is defined as the isomers which differ by the arrangement along the double bond ring and other rigid structure is calculated using GI of Symmetrical Molecule with Even Stereocenter = 2^(Number of Even Stereogenic Centers-1)+2^((Number of Even Stereogenic Centers/2)-1). To calculate Number of Geometrical Isomers for Symmetrical Molecule with Even Stereocenters, you need Number of Even Stereogenic Centers (n_even). With our tool, you need to enter the respective value for Number of Even Stereogenic Centers 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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