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The physical processes and observing...

Pannuti, Thomas G.

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The physical processes and observing techniques of radio astronomy = An Introduction /

Record Type:	Electronic resources : Monograph/item
Title/Author:	The physical processes and observing techniques of radio astronomy/ by Thomas G. Pannuti.
Reminder of title:	An Introduction /
Author:	Pannuti, Thomas G.
Published:	Cham :Springer International Publishing : : 2020.,
Description:	xviii, 393 p. :ill. (some col.), digital ;24 cm.
[NT 15003449]:	Chapter1. Introduction: Why Make Observations at Radio Frequencies? -- Chapter2. Angles, Gravity, Light, The Bohr Model of the Atom and Relativity -- Chapter3. Emission Mechanisms: Blackbody Radiation, An Introduction to Radiative Transfer, Synchrotron Radiation, Thermal Bremsstrahlung and Molecular Transitions -- Chapter4. Radio Observations: An Introduction to Fourier Transforms, Observing Through Earth's Atmosphere, Single Dish Telescopes and Interferometers -- Chapter5. Solar System Radio Astronomy: The Sun, The Planets, The Moon and Minor Bodies -- Chapter6. Galactic Radio Astronomy: Galactic Structure, HII Regions, Supernova Remnants, Neutron Stars and Pulsars -- Chapter7. Extragalactic Radio Astronomy: Galaxy Classification, Active Galactic Nuclei, Superluminal Motion, Galaxy Clusters and the Microwave Background.
Contained By:	Springer Nature eBook
Subject:	Radio astronomy. -
Online resource:	https://doi.org/10.1007/978-3-319-16982-8
ISBN:	9783319169828

The physical processes and observing techniques of radio astronomy = An Introduction /
Pannuti, Thomas G.

The physical processes and observing techniques of radio astronomyAn Introduction /[electronic resource] :by Thomas G. Pannuti. - Cham :Springer International Publishing :2020. - xviii, 393 p. :ill. (some col.), digital ;24 cm. - Undergraduate lecture notes in physics,2192-4791. - Undergraduate lecture notes in physics..

Chapter1. Introduction: Why Make Observations at Radio Frequencies? -- Chapter2. Angles, Gravity, Light, The Bohr Model of the Atom and Relativity -- Chapter3. Emission Mechanisms: Blackbody Radiation, An Introduction to Radiative Transfer, Synchrotron Radiation, Thermal Bremsstrahlung and Molecular Transitions -- Chapter4. Radio Observations: An Introduction to Fourier Transforms, Observing Through Earth's Atmosphere, Single Dish Telescopes and Interferometers -- Chapter5. Solar System Radio Astronomy: The Sun, The Planets, The Moon and Minor Bodies -- Chapter6. Galactic Radio Astronomy: Galactic Structure, HII Regions, Supernova Remnants, Neutron Stars and Pulsars -- Chapter7. Extragalactic Radio Astronomy: Galaxy Classification, Active Galactic Nuclei, Superluminal Motion, Galaxy Clusters and the Microwave Background.

This is a textbook for undergraduate courses on radio astronomy. Written by an active professor and researcher in the field, it begins by explaining why conducting observations at radio frequencies is so important, then reviews essential physics concepts corresponding to a sophomore-level curriculum or higher. Next, the book introduces students to single dish telescopes and interferometers. The most commonly encountered emission mechanisms seen in radio astronomy are then explained, along with examples of astronomical sources broadly divided into the types of sources seen in galactic and extragalactic observations. Each chapter provides examples and exercises suitable for homework assignments. Also included is an appendix of useful supplementary material. Altogether, the book is a comprehensive, yet digestible starting point for physics and astronomy undergraduates looking to understand the basics of radio astronomy.

ISBN: 9783319169828

Standard No.: 10.1007/978-3-319-16982-8doiSubjects--Topical Terms:

649695
Radio astronomy.

LC Class. No.: QB476.5 / .P366 2020

Dewey Class. No.: 522.682

The physical processes and observing techniques of radio astronomy = An Introduction /
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245 1 4 $a The physical processes and observing techniques of radio astronomy $h [electronic resource] : $b An Introduction / $c by Thomas G. Pannuti.
260 $a Cham : $b Springer International Publishing : $b Imprint: Springer, $c 2020.
300 $a xviii, 393 p. : $b ill. (some col.), digital ; $c 24 cm.
490 1 $a Undergraduate lecture notes in physics, $x 2192-4791
505 0 $a Chapter1. Introduction: Why Make Observations at Radio Frequencies? -- Chapter2. Angles, Gravity, Light, The Bohr Model of the Atom and Relativity -- Chapter3. Emission Mechanisms: Blackbody Radiation, An Introduction to Radiative Transfer, Synchrotron Radiation, Thermal Bremsstrahlung and Molecular Transitions -- Chapter4. Radio Observations: An Introduction to Fourier Transforms, Observing Through Earth's Atmosphere, Single Dish Telescopes and Interferometers -- Chapter5. Solar System Radio Astronomy: The Sun, The Planets, The Moon and Minor Bodies -- Chapter6. Galactic Radio Astronomy: Galactic Structure, HII Regions, Supernova Remnants, Neutron Stars and Pulsars -- Chapter7. Extragalactic Radio Astronomy: Galaxy Classification, Active Galactic Nuclei, Superluminal Motion, Galaxy Clusters and the Microwave Background.
520 $a This is a textbook for undergraduate courses on radio astronomy. Written by an active professor and researcher in the field, it begins by explaining why conducting observations at radio frequencies is so important, then reviews essential physics concepts corresponding to a sophomore-level curriculum or higher. Next, the book introduces students to single dish telescopes and interferometers. The most commonly encountered emission mechanisms seen in radio astronomy are then explained, along with examples of astronomical sources broadly divided into the types of sources seen in galactic and extragalactic observations. Each chapter provides examples and exercises suitable for homework assignments. Also included is an appendix of useful supplementary material. Altogether, the book is a comprehensive, yet digestible starting point for physics and astronomy undergraduates looking to understand the basics of radio astronomy.
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