How does electronic displacements take
place in a covalent bond?
Answers
Answer:
The displacement of electrons in a covalent bond of a molecule of an organic compound takes place either due to the presence of a substituent group, under the influence of an atom or due to the presence of a suitable attacking reagent
Electron displacement may be temporary or permanent and sometimes it may lead to the fission of a covalent bond. The electron displacement due to a substituent group or due to the influence of an atom cause permanent polarization of a covalent bond developing a polar character
Answer:
Covalent bonds: they are in most of the molecules we encounter on a daily basis, from the food we eat to the air we breathe to the fabric on our clothing. Covalent bonds are chemical bonds between atoms where electrons are shared by each atom, rather than transferred from one atom to another, as in an ionic bond. But not all atoms share electrons equally, in fact, chemistry would be a very boring topic if that were the case! Atoms can actually take more than their ''fair'' share of electrons, even in a covalent bond, which leads to a variety of electronic displacements. An electronic displacement occurs when electrons move toward one side or part of a molecule. Electronic displacements are often responsible for the chemical reactivity of some molecules and the relative inertness of others.
There are four different types of electronic displacements to consider:
Inductive effects
Resonance
Hyperconjugation
Electromeric effects
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