Q2: Find the wavelength of the third line in the Lyman series, andidentify the type of electromagnetic radiation. (R-1.097373x10'm)Q3 if a hydrogen atom has its electron in the n=4 state, how muchenergy in eV is needed to ionize it?Q5: A hydrogen atom in an excited state can be ionized with lessenergy than when it is in its ground state. What is n for a hydrogenatom if 0.850 ev of energy can ionize it?Q4: Find the radius of a hydrogen atom in the n=2 state according toBohr's theory. (a=0.53x1010mQ6: what is the smallest wavelength line in the Balmer series? Is it inthe visible part of the spectrum?Q: Show that the first line of the Paschen series is in the infrared partof the spectrum.Q: A wavelength of 4653nm is observed in a hydrogen spectrum for atransition that ends in the n=5 level. What was n for the initial level ofthe electron?Q: Draw the possible transitions of the hydrogen atom between then=8 to n=2

According to our guideline we have to do the first question only.Hope you understand.Thank you so…

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Q2: Find the wavelength of the third line in the Lyman series, and identify the type of electromagnetic radiation. (R-1.097373x10'm)

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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Concept explainers

Particle Theory of Light

The particle theory of light was the proposal made by Newton in 1704 in his treatise Opticks. This is the most basic light theory, in which light is thought to be made up of microscopic particles known as "corpuscles" and that's why this particle theory of light is also named as Corpuscular theory of light.

Stopping Potential

In an experiment conducted by Heinrich Hertz, an apparatus was made where the incident light was made to fall on the metallic plate, it was discovered that metals emit electrons. The surface electrons are bound to metals with a minimum amount of energy and some of the incident photos enter the surface, they undergo collision with the atoms of the metal, they get absorbed and emit energy to an election, making it photoelectron, where the collision between the photons and electrons ejects the electrons out of the metal and with a negatively charged electron, causes photocurrent and when this current passes it creates an electric field where there is a potential difference at the output due to the anode and cathode of the electrode of the apparatus. This study involves the theory of Quantum physics and electromagnetism involving electromagnetic radiation and electromagnetic wave theory.

Quantization of Charges

An electron is a negatively charged subatomic particle either attached to an an atom or sticks to the nucleus of the atom. Electrons exert the negative charge that tries to balance the positive charge of the nucleus.

Question

Q2: Find the wavelength of the third line in the Lyman series, and
identify the type of electromagnetic radiation. (R-1.097373x10'm)
Q3 if a hydrogen atom has its electron in the n=4 state, how much
energy in eV is needed to ionize it?
Q5: A hydrogen atom in an excited state can be ionized with less
energy than when it is in its ground state. What is n for a hydrogen
atom if 0.850 ev of energy can ionize it?
Q4: Find the radius of a hydrogen atom in the n=2 state according to
Bohr's theory. (a=0.53x1010m
Q6: what is the smallest wavelength line in the Balmer series? Is it in
the visible part of the spectrum?
Q: Show that the first line of the Paschen series is in the infrared part
of the spectrum.
Q: A wavelength of 4653nm is observed in a hydrogen spectrum for a
transition that ends in the n=5 level. What was n for the initial level of
the electron?
Q: Draw the possible transitions of the hydrogen atom between the
n=8 to n=2

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