The molecular shape of c2h4 is planar, meaning that all atoms lie within the same plane. This planar structure is a consequence of the sp2 hybridization of the carbon atoms. The geometry of ethene (c2h4) can be determined by first drawing its lewis structure, which shows a double bond between the two carbon atoms and single bonds to the hydrogen atoms. C2h4 has planar geometry because each carbon present in the c2h4 lewis structure holds sp hybridization and with respect to each carbon, 2 hydrogen. The lewis structure suggests that c2h4 adopts a planar geometry.
The c2h4 lewis structure is important because it helps visualize the arrangement of electrons and predict the molecular geometry and reactivity of ethylene. Ethylene, also known as ethene (ch), is a simple yet fascinating hydrocarbon with a distinct geometric shape that plays a crucial role in its chemical properties and reactivity. Understanding its molecular geometry is key to grasping its behavior in various chemical.
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