C6h12

Name of Molecule Hexene Molecular Geometry 1- Tetrahedral 2- Trigonal planar Hybridization 1- sp 3 2- sp 2 Molecular Formula C ₆ H ₁₂ Molecular Weight 84.16 g/mol Bond Pairs 18 Lone Pairs 0 Lewis structure in Infographic Download Center Google Drive for all Compounds Click Here Other names 1 -HEXENE Hex-1-ene 592-41-6 Hexene Hexene-1 Infographic Download ↓↓ 3mb - high resolution Size: 900KB Definitions Molecular Geometry: ( molecular geometry) Molecules have a balanced geometric shape, the bonds have a certain length and angle as well, and the laws of quantum mechanics determine this. The chemical equation and the structural equation of a molecule are the two most important factors in determining its properties, especially its activity. The structure of the molecule also plays an important role in determining polarity, state of matter, colour, magnetism, taste, and many other properties. bond angle , vsepr , bonding shapes , electron domain , bonding domain Hybridization : hybrid meaning Hybridization in chemistry is the process of mixing, merging, or combining two or more different orbitals of electrons in the same atom. And they are close in energy to produce new hybrid orbitals of equal length and energy. Hybridization occurs in the same single atom and produces orbitals that are equivalent in shape, length and energy. The atom must be excited. The orbitals must be close in energy, such as 2s with 2p or 4s with 3d. The number of hybrid orbitals is equal to the number of...

Cyclohexane Cyclohexane Definition Hetero-substituted cyclohexanes in which one or more CH 2 groups are replaced by O or NR almost invariably exist predominantly in chair conformations. The cyclic version of hexane, utilised as a raw material in the creation of nylon, is cyclohexane, an alicyclic hydrocarbon with a ring of six carbon atoms. It performs the function of a Table of Contents • • • • • Cyclohexane Structure C 6H 12 is the chemical formula for cyclohexane. There are no CH 3 endings because it forms a ring; instead, each carbon is connected to a CH 2. Drawing cyclohexane is as simple as drawing a hexagon. Each point represents a fully saturated (with hydrogen atoms) carbon in this style. When cyclohexane is represented in this fashion, each carbon and hydrogen atom seems to be identical. Cyclohexane is a flammable, non-polar, colourless liquid with a detergent-like odour. The most straightforward approach to depict the structure of cyclohexane is to draw a hexagon. Each point in the hexagon represents a fully saturated carbon atom surrounded by hydrogen atoms. When cyclohexane is represented by a hexagon, every carbon and hydrogen atom in the structure seems to be the same. Cyclohexane Conformations The study of cyclohexane led to the development of many of the most significant principles of conformational analysis. Angle strain is essentially absent in three The mutual crowding of hydrogen atoms at carbons one and four further destabilise the boat conformation. ...

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• Experimental Physico-chemical Properties • Experimental Melting Point: 6.5 °C Alfa Aesar 7 °C OU Chemical Safety Data (No longer updated) 6.6 °C Jean-Claude Bradley Open Melting Point Dataset 6.45 °C Jean-Claude Bradley Open Melting Point Dataset 7 °C Jean-Claude Bradley Open Melting Point Dataset 6.5 °C Alfa Aesar 4-7 °C Oakwood 6.5 °C FooDB 43-45 °F (6.1111-7.2222 °C) Wikidata 44 °F (6.6667 °C) Wikidata 4-7 °C Sigma-Aldrich 6.5 °C Kaye & Laby (No longer updated) 4-7 °C Oakwood • Experimental Boiling Point: 80-81 °C Alfa Aesar 177 °F (80.5556 °C) NIOSH 81 °C OU Chemical Safety Data (No longer updated) 80-81 °C Alfa Aesar 80-81 °C Oakwood 81 °C FooDB 176-178 °F / 760 mmHg (80-81.1111 °C / 760 mmHg) Wikidata 177 °F / 760 mmHg (80.5556 °C / 760 mmHg) Wikidata 80.7 °C Sigma-Aldrich 80.73 °C / 760 mmHg Kaye & Laby (No longer updated) 80-81 °C Oakwood • Experimental Ionization Potent: 9.88 Ev NIOSH • Experimental Vapor Pressure: 78 mmHg NIOSH • Experimental LogP: 3.34 Egon Willighagen • Experimental Flash Point: -18 °C Alfa Aesar 0 F (-17.7778 °C) NIOSH -20 °C OU Chemical Safety Data (No longer updated) -18 °C Alfa Aesar -18 °F (-27.7778 °C) Alfa Aesar -18 °C Oakwood 0 °F (-17.7778 °C) Wikidata -1-1 °F (-18.3333--17.2222 °C) Wikidata -18 °C Sigma-Aldrich -18 °C Oakwood • Experimental Refraction Index: 1.426 Alfa Aesar 1.4262 / 20 °C FooDB 1.426 Sigma-Aldrich 1.4262 Kaye & Laby (No longer updated) • Experimental Solubility: Insoluble NIOSH • Experimental Density: 0.779 g/mL Al...