Problem 4.3 According to Eq. 4.1, the induced dipole moment of an atom is pro- portional to the external field. This is a “rule of thumb,” not a fundamental law, and it is easy to concoct exceptions—in theory. Suppose, for example, the charge density of the electron cloud were proportional to the distance from the center, out to a radius R. To what power of E would p be proportional in that case? Find the condition on p(r) such that Eq. 4.1 will hold in the weak-field limit. p = αE. (4.1) The constant of proportionality a is called atomic polarizability. Its value depends on the detailed structure of the atom in question. Table 4.1 lists some

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Problem 4.3 According to Eq. 4.1, the induced dipole moment of an atom is pro- portional to the external field. This is a “rule of thumb,” not a fundamental law, and it is easy to concoct exceptions—in theory. Suppose, for example, the charge density of the electron cloud were proportional to the distance from the center, out to a radius R. To what power of E would p be proportional in that case? Find the condition on p(r) such that Eq. 4.1 will hold in the weak-field limit.

Transcribed Image Text:

p = αE. (4.1) The constant of proportionality a is called atomic polarizability. Its value depends on the detailed structure of the atom in question. Table 4.1 lists some