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Consider the radiation emitted by large number of singly charged positive ions of a certain element. The sample emits fifteen types of spectral lines, one of which is same as the first line of Lyman series. What is the binding energy in the highest energy state of this configuration?

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Important Questions on Atoms

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Chapterwise/Topicwise Daily Practice Problems (DPP) Optics and Modern Physics NEET>Chapter 4 - Atoms>TOPICWISE QUESTIONS>Q 65

A sample of hydrogen gas is excited by means of a monochromatic radiation. In the subsequent emission spectrum,

10

different wavelengths are obtained, all of which have energies greater than or equal to the energy of the absorbed radiation. Find the initial quantum number of the state (before absorbing the radiation).

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Chapterwise/Topicwise Daily Practice Problems (DPP) Optics and Modern Physics NEET>Chapter 4 - Atoms>TOPICWISE QUESTIONS>Q 66

Ultraviolet light of wavelengths

830 \overset{\circ}{A}

and

700 \overset{\circ}{A}

, when allowed to fall on hydrogen atoms in their ground state, is found to liberate electrons with kinetic energy

1.8 eV

and

4.0 eV

, respectively. Find the value of Planck's constant.

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Chapterwise/Topicwise Daily Practice Problems (DPP) Optics and Modern Physics NEET>Chapter 4 - Atoms>TOPICWISE QUESTIONS>Q 67

The wavelength of the first member of the Balmer series, in hydrogen spectrum, is

6563 \overset{\circ}{A}

. Calculate the wavelength of first member of Lyman series in the same spectrum.

HARD

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Chapterwise/Topicwise Daily Practice Problems (DPP) Optics and Modern Physics NEET>Chapter 4 - Atoms>TOPICWISE QUESTIONS>Q 68

The wavelength of

D_{1}

and

D_{2}

lines of sodium are

5890 \overset{\circ}{A}

and

5896 \overset{\circ}{A}

, respectively. If their mean wavelength is

6000 \overset{\circ}{A}

, then the difference of excited energy states will be

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Chapterwise/Topicwise Daily Practice Problems (DPP) Optics and Modern Physics NEET>Chapter 4 - Atoms>TOPICWISE QUESTIONS>Q 69

A photon was absorbed by a hydrogen atom in its ground state and the electron was promoted to the fifth orbit. When the excited atom is returned to its ground state, visible and other quanta were emitted. In this process, how many maximum spectral lines could be obtained?

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Chapterwise/Topicwise Daily Practice Problems (DPP) Optics and Modern Physics NEET>Chapter 4 - Atoms>TOPICWISE QUESTIONS>Q 70

An electron collides with a fixed hydrogen atom in its ground state. Hydrogen atom gets excited and the colliding electron loses all its kinetic energy. Consequently, the hydrogen atom may emit a photon corresponding to the largest wavelength of the Balmer series. The kinetic energy of the colliding electron is given by

\frac{24.2}{N} eV

. Find the value of

N

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Chapterwise/Topicwise Daily Practice Problems (DPP) Optics and Modern Physics NEET>Chapter 4 - Atoms>TOPICWISE QUESTIONS>Q 71

Choose the correct statement for hydrogen and deuterium atoms (considering the motion of nucleus).

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Chapterwise/Topicwise Daily Practice Problems (DPP) Optics and Modern Physics NEET>Chapter 4 - Atoms>TOPICWISE QUESTIONS>Q 72

Neglecting the reduced mass effects, what optical transition in the

{He}^{+}

spectrum would have the same wavelength as the first Lyman transition of hydogen

(n = 2 to n = 1)

Consider the radiation emitted by large number of singly charged positive ions of a certain element. The sample emits fifteen types of spectral lines, one of which is same as the first line of Lyman series. What is the binding energy in the highest energy state of this configuration?

Important Questions on Atoms

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