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"A cyclohexane conformation is any of several three-dimensional shapes that a cyclohexane molecule can assume while maintaining the integrity of its chemical bonds.
The internal angles of a flat regular hexagon are 120°, while the preferred angle between successive bonds in a carbon chain is about 109.5°, the tetrahedral angle. Therefore the cyclohexane ring tends to assume certain non-planar (warped) conformations, which have all angles closer to 109.5° and therefore a lower strain energy than the flat hexagonal shape. The most important shapes are called chair, half-chair, boat, and twist-boat. The molecule can easily switch between these conformations, and only two of them - chair and twist-boat - can be isolated in pure form.
Cyclohexane conformations have been extensively studied in organic chemistry because they are the classical example of conformational isomerism and have noticeable influence on the physical and chemical properties of cyclohexane." [Cyclohexane conformation. Wikipedia]
The chemical drawing example "Cycloalkanes conformations" was created using the ConceptDraw PRO diagramming and vector drawing software extended with the Chemistry solution from the Science and Education area of ConceptDraw Solution Park.
Cyclopentane and cyclohexane ring conformations
Cyclopentane and cyclohexane ring conformations, cyclopentane, envelope conformation, cyclohexane, twist-boat conformation, cyclohexane, chair conformation, cyclohexane, boat conformation,
The vector stencils library "Conformations" contains 32 symbols of ring conformations, Newman and Fisher projections for chemical and biochemical drawing the molecular models and structural formulas of organic molecules and biochemical metabolites, the conformers spatial structures of organic molecules, the schemes of stereospecific chemical reactions in organic synthesis.
Use these shapes to draw your stereochemistry drawings in the ConceptDraw PRO diagramming and vector drawing software extended with the Chemistry solution from the Science and Education area of ConceptDraw Solution Park.
www.conceptdraw.com/ solution-park/ science-education-chemistry
Cyclohexane: boat conformation
Cyclohexane: boat conformation, cyclohexane, boat conformation,
Cyclohexane: chair conformation
Cyclohexane: chair conformation, cyclohexane, chair conformation,
Cyclopentane: envelope conformation
Cyclopentane: envelope conformation, cyclopentane, envelope conformation,
Cyclopentane: envelope conformation
Cyclopentane: envelope conformation, cyclopentane, envelope conformation,
Cyclobutane: saddle conformation
Cyclobutane: saddle conformation, cyclobutane, saddle conformation,
Cyclobutane: saddle conformation
Cyclobutane: saddle conformation, cyclobutane, saddle conformation,
Fischer projection formula
Fischer projection formula, Fischer projection formula, monosaccharide,
Fischer projection formula
Fischer projection formula, Fischer projection formula, monosaccharide,
Fischer projection formula
Fischer projection formula, Fischer projection formula, monosaccharide,
Pyranose cycle
Pyranose cycle, pyranose cycle, pyranose, Haworth formula, monosaccharide,
Pyranose cycle
Pyranose cycle, pyranose cycle, pyranose, Haworth formula, monosaccharide,
Furanose cycle
Furanose cycle, furanose cycle, furanose, Haworth formula, monosaccharide,
Furanose cycle
Furanose cycle, furanose cycle, furanose, Haworth formula, monosaccharide,
Furanose cycle
Furanose cycle, furanose cycle, furanose, Haworth formula, monosaccharide,
Furanose cycle
Furanose cycle, furanose cycle, furanose, Haworth formula, monosaccharide,
Cyclobutane
Cyclobutane, cyclobutane,
Cyclopropane
Cyclopropane, cyclopropane,
Cyclopropane
Cyclopropane, cyclopropane,
Conformation
Conformation, conformation,
Conformation
Conformation, conformation,
Newman projection formula
Newman projection formula, Newman projection formula,
Newman projection formula
Newman projection formula, Newman projection formula,
Cyclohexane: twist-boat
Cyclohexane: twist-boat, cyclohexane, twist-boat conformation,
Cyclohexane: twist-chair
Cyclohexane: twist-chair, cyclohexane, twist-chair conformation,
Cyclohexane: planar form
Cyclohexane: planar form, cyclohexane, planar form,
Cyclohexane: equatorial form
Cyclohexane: equatorial form, cyclohexane, equatorial form,
Cycloheptane: chair conformation
Cycloheptane: chair conformation, cycloheptane, chair conformation,
Cycloheptane: boat conformation
Cycloheptane: boat conformation, cycloheptane, boat conformation,
Cycloheptane: equatorial form
Cycloheptane: equatorial form, cycloheptane, equatorial form,
Cyclooctane: chair conformation
Cyclooctane: chair conformation, cyclooctane, chair conformation,
Cyclooctane: boat conformation
Cyclooctane: boat conformation, cyclooctane, boat conformation,
Cyclooctane: equatorial form
Cyclooctane: equatorial form, cyclooctane, equatorial form,
"A cyclohexane conformation is any of several three-dimensional shapes that a cyclohexane molecule can assume while maintaining the integrity of its chemical bonds.
The internal angles of a flat regular hexagon are 120°, while the preferred angle between successive bonds in a carbon chain is about 109.5°, the tetrahedral angle. Therefore the cyclohexane ring tends to assume certain non-planar (warped) conformations, which have all angles closer to 109.5° and therefore a lower strain energy than the flat hexagonal shape. The most important shapes are called chair, half-chair, boat, and twist-boat. The molecule can easily switch between these conformations, and only two of them - chair and twist-boat - can be isolated in pure form.
Cyclohexane conformations have been extensively studied in organic chemistry because they are the classical example of conformational isomerism and have noticeable influence on the physical and chemical properties of cyclohexane." [Cyclohexane conformation. Wikipedia]
The chemical drawing example "Cycloalkanes conformations" was created using the ConceptDraw PRO diagramming and vector drawing software extended with the Chemistry solution from the Science and Education area of ConceptDraw Solution Park.
Cyclopentane and cyclohexane ring conformations
Cyclopentane and cyclohexane ring conformations, cyclopentane, envelope conformation, cyclohexane, twist-boat conformation, cyclohexane, chair conformation, cyclohexane, boat conformation,
The vector stencils library "Conformations" contains 32 symbols of ring conformations, Newman and Fisher projections for chemical and biochemical drawing the molecular models and structural formulas of organic molecules and biochemical metabolites, the conformers spatial structures of organic molecules, the schemes of stereospecific chemical reactions in organic synthesis.
Use these shapes to draw your stereochemistry drawings in the ConceptDraw PRO diagramming and vector drawing software extended with the Chemistry solution from the Science and Education area of ConceptDraw Solution Park.
www.conceptdraw.com/ solution-park/ science-education-chemistry
Cyclohexane: boat conformation
Cyclohexane: boat conformation, cyclohexane, boat conformation,
Cyclohexane: chair conformation
Cyclohexane: chair conformation, cyclohexane, chair conformation,
Cyclopentane: envelope conformation
Cyclopentane: envelope conformation, cyclopentane, envelope conformation,
Cyclopentane: envelope conformation
Cyclopentane: envelope conformation, cyclopentane, envelope conformation,
Cyclobutane: saddle conformation
Cyclobutane: saddle conformation, cyclobutane, saddle conformation,
Cyclobutane: saddle conformation
Cyclobutane: saddle conformation, cyclobutane, saddle conformation,
Fischer projection formula
Fischer projection formula, Fischer projection formula, monosaccharide,
Fischer projection formula
Fischer projection formula, Fischer projection formula, monosaccharide,
Fischer projection formula
Fischer projection formula, Fischer projection formula, monosaccharide,
Pyranose cycle
Pyranose cycle, pyranose cycle, pyranose, Haworth formula, monosaccharide,
Pyranose cycle
Pyranose cycle, pyranose cycle, pyranose, Haworth formula, monosaccharide,
Furanose cycle
Furanose cycle, furanose cycle, furanose, Haworth formula, monosaccharide,
Furanose cycle
Furanose cycle, furanose cycle, furanose, Haworth formula, monosaccharide,
Furanose cycle
Furanose cycle, furanose cycle, furanose, Haworth formula, monosaccharide,
Furanose cycle
Furanose cycle, furanose cycle, furanose, Haworth formula, monosaccharide,
Cyclobutane
Cyclobutane, cyclobutane,
Cyclopropane
Cyclopropane, cyclopropane,
Cyclopropane
Cyclopropane, cyclopropane,
Conformation
Conformation, conformation,
Conformation
Conformation, conformation,
Newman projection formula
Newman projection formula, Newman projection formula,
Newman projection formula
Newman projection formula, Newman projection formula,
Cyclohexane: twist-boat
Cyclohexane: twist-boat, cyclohexane, twist-boat conformation,
Cyclohexane: twist-chair
Cyclohexane: twist-chair, cyclohexane, twist-chair conformation,
Cyclohexane: planar form
Cyclohexane: planar form, cyclohexane, planar form,
Cyclohexane: equatorial form
Cyclohexane: equatorial form, cyclohexane, equatorial form,
Cycloheptane: chair conformation
Cycloheptane: chair conformation, cycloheptane, chair conformation,
Cycloheptane: boat conformation
Cycloheptane: boat conformation, cycloheptane, boat conformation,
Cycloheptane: equatorial form
Cycloheptane: equatorial form, cycloheptane, equatorial form,
Cyclooctane: chair conformation
Cyclooctane: chair conformation, cyclooctane, chair conformation,
Cyclooctane: boat conformation
Cyclooctane: boat conformation, cyclooctane, boat conformation,
Cyclooctane: equatorial form
Cyclooctane: equatorial form, cyclooctane, equatorial form,
"A cyclohexane conformation is any of several three-dimensional shapes that a cyclohexane molecule can assume while maintaining the integrity of its chemical bonds.
The internal angles of a flat regular hexagon are 120°, while the preferred angle between successive bonds in a carbon chain is about 109.5°, the tetrahedral angle. Therefore the cyclohexane ring tends to assume certain non-planar (warped) conformations, which have all angles closer to 109.5° and therefore a lower strain energy than the flat hexagonal shape. The most important shapes are called chair, half-chair, boat, and twist-boat. The molecule can easily switch between these conformations, and only two of them - chair and twist-boat - can be isolated in pure form.
Cyclohexane conformations have been extensively studied in organic chemistry because they are the classical example of conformational isomerism and have noticeable influence on the physical and chemical properties of cyclohexane." [Cyclohexane conformation. Wikipedia]
The chemical drawing example "Cycloalkanes conformations" was created using the ConceptDraw PRO diagramming and vector drawing software extended with the Chemistry solution from the Science and Education area of ConceptDraw Solution Park.
Cyclopentane and cyclohexane ring conformations
Cyclopentane and cyclohexane ring conformations, cyclopentane, envelope conformation, cyclohexane, twist-boat conformation, cyclohexane, chair conformation, cyclohexane, boat conformation,
The vector stencils library "Conformations" contains 32 symbols of ring conformations, Newman and Fisher projections for chemical and biochemical drawing the molecular models and structural formulas of organic molecules and biochemical metabolites, the conformers spatial structures of organic molecules, the schemes of stereospecific chemical reactions in organic synthesis.
Use these shapes to draw your stereochemistry drawings in the ConceptDraw PRO diagramming and vector drawing software extended with the Chemistry solution from the Science and Education area of ConceptDraw Solution Park.
www.conceptdraw.com/ solution-park/ science-education-chemistry
Cyclohexane: boat conformation
Cyclohexane: boat conformation, cyclohexane, boat conformation,
Cyclohexane: chair conformation
Cyclohexane: chair conformation, cyclohexane, chair conformation,
Cyclopentane: envelope conformation
Cyclopentane: envelope conformation, cyclopentane, envelope conformation,
Cyclopentane: envelope conformation
Cyclopentane: envelope conformation, cyclopentane, envelope conformation,
Cyclobutane: saddle conformation
Cyclobutane: saddle conformation, cyclobutane, saddle conformation,
Cyclobutane: saddle conformation
Cyclobutane: saddle conformation, cyclobutane, saddle conformation,
Fischer projection formula
Fischer projection formula, Fischer projection formula, monosaccharide,
Fischer projection formula
Fischer projection formula, Fischer projection formula, monosaccharide,
Fischer projection formula
Fischer projection formula, Fischer projection formula, monosaccharide,
Pyranose cycle
Pyranose cycle, pyranose cycle, pyranose, Haworth formula, monosaccharide,
Pyranose cycle
Pyranose cycle, pyranose cycle, pyranose, Haworth formula, monosaccharide,
Furanose cycle
Furanose cycle, furanose cycle, furanose, Haworth formula, monosaccharide,
Furanose cycle
Furanose cycle, furanose cycle, furanose, Haworth formula, monosaccharide,
Furanose cycle
Furanose cycle, furanose cycle, furanose, Haworth formula, monosaccharide,
Furanose cycle
Furanose cycle, furanose cycle, furanose, Haworth formula, monosaccharide,
Cyclobutane
Cyclobutane, cyclobutane,
Cyclopropane
Cyclopropane, cyclopropane,
Cyclopropane
Cyclopropane, cyclopropane,
Conformation
Conformation, conformation,
Conformation
Conformation, conformation,
Newman projection formula
Newman projection formula, Newman projection formula,
Newman projection formula
Newman projection formula, Newman projection formula,
Cyclohexane: twist-boat
Cyclohexane: twist-boat, cyclohexane, twist-boat conformation,
Cyclohexane: twist-chair
Cyclohexane: twist-chair, cyclohexane, twist-chair conformation,
Cyclohexane: planar form
Cyclohexane: planar form, cyclohexane, planar form,
Cyclohexane: equatorial form
Cyclohexane: equatorial form, cyclohexane, equatorial form,
Cycloheptane: chair conformation
Cycloheptane: chair conformation, cycloheptane, chair conformation,
Cycloheptane: boat conformation
Cycloheptane: boat conformation, cycloheptane, boat conformation,
Cycloheptane: equatorial form
Cycloheptane: equatorial form, cycloheptane, equatorial form,
Cyclooctane: chair conformation
Cyclooctane: chair conformation, cyclooctane, chair conformation,
Cyclooctane: boat conformation
Cyclooctane: boat conformation, cyclooctane, boat conformation,
Cyclooctane: equatorial form
Cyclooctane: equatorial form, cyclooctane, equatorial form,