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According to the classical electromagnet...

According to the classical electromagnetic theory, calculate the initial frequency of the light emitted by the electron revolving around a proton in hydrogen atom.

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From the above example we know that velocity of electron moving around a proton in hydrogen atom in an orbit of radius `5.5 xx 10^(-11) ` m is `2.2 xx 10^(-6)` m/s. Thus, the frequency of the electron moving around the proton is ` vartheta = (v)/(2 pi r) = (2.2 xx 10^(6) ms^(-1))/(2 pi (5.3 xx 10^(-11)m)) = 6.6 xx 10^(15)` Hz.
According to the classical electro1nagnetic theory we know that the frequency of the electromagnetic waves emitted by the revolving electrons is equal to the frequency of its revolution around the nucleus. Thus the initial frequency of the light emitted is `6.6 xx 10^(15)` Hz.
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AAKASH SERIES-ATOMS-PRACTICE EXERCISE
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  2. The energy of the electron in the ground state of hydrogen atom is -13...

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  3. Hydrogen atom emits blue light when it jumps from n=4 energy level to ...

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  4. The separation energy of the electron presetn in the shell n =3 is 1.5...

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  5. Radius of first orbit of hydrogen is 0.53 Å. The radius in fourth orbi...

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  6. The electrons in hydrogen atoms are raised from ground state to third ...

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  9. The ratio of the energies of the hydrogen atom in its first excited st...

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  10. Find the ratio of wavelengths of first line of Lyman series and second...

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  11. Calculated the energy required to excite one litre of hydrogen gas at ...

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  12. In Bohr's model of the hydrogen atom, the ratio between the period of ...

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  13. The radius of the first orbit of hydrogen in 0.528 overset(0)A. The ra...

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  18. Energy levels A,B,C of an atom are shown below If E(A)ltE(B)ltE(C...

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