Question

When a molecule is placed in magnetic
field, electrons of molecule under external
magnetic field generated circulating
magnetic field it is called as
magnetic
field.​

Answer 1

Answer:

This chapter describes the behavior of molecules in an electric or magnetic field. The nucleus can be treated as a small magnet, which reacts to the local magnetic field it encounters. This local field depends on the external magnetic field and also on those from other nuclei. It also depends on the electronic structure in the vicinity. This produces certain energy levels in the spin system, with transitions leading to the nuclear magnetic resonance (NMR) phenomenon. NMR has wide applications in chemistry, physics and medicine. It is of supreme importance in the design of new materials. The molecular electronic structure influences the subtle energetics of interaction of the nuclear spin magnetic moments. These effects can be recorded in the NMR spectrum. The molecular dipole moment can be represented as the sum of the individual atomic dipole moments and the pairwise atomic dipole contributions. An atom or molecule, when located in an electric field undergoes a deformation.

Explanation:

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Answer 2

Answer:

The correct answer of this question is molecules' behaviour in an electric or magnetic field .

Explanation:

Given - A molecule is placed in magnetic field, electrons of molecule under external, magnetic field generated circulating magnetic field .

To Find  -  Write about the a molecule is placed in magnetic field, electrons of molecule under external magnetic field generated circulating

magnetic field it is called as magnetic field.​

Molecules' behaviour in an electric or magnetic field . The nucleus can be thought of as a small magnet that responds to the magnetic field it encounters. This local field is affected by the external magnetic field as well as those from other nuclei. It is also affected by the electronic structure in the area. This results in the formation of certain energy levels in the spin system, with transitions leading to the nuclear magnetic resonance (NMR) phenomenon. NMR is widely used in chemistry, physics, and medicine. It is crucial in the development of new materials. The subtle energetics of interaction of nuclear spin magnetic moments are influenced by the molecular electronic structure. The NMR spectrum can be used to record these effects.

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