Ronald L. Snell | Stanley Kurtz | Jonathan Marr

Fundamentals of Radio Astronomy

Name: Fundamentals of Radio Astronomy
Brand: Taylor & Francis Ltd
SKU: 9780367779825
Price: 59.99 EUR
Availability: InStock

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€59.99

Product variants

A01=Jonathan Marr

A01=Ronald L. Snell

A01=Stanley Kurtz

advanced radio astronomy concepts

AGN

astrophysical emission mechanisms

Author_Jonathan Marr

Author_Ronald L. Snell

Author_Stanley Kurtz

Brightness Temperature

Category=PHJ

Category=PHVB

CMB

CMB Photon

CMB Power Spectrum

Column Density

Cosmic Microwave Background

Early Type Galaxies

Energy Density

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eq_isMigrated=2

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eq_science

Excitation Temperature

Flux Density

Free Free Emission

Galactic Center

Galactic Longitude

galactic structure modeling

HII Region

interstellar medium physics

LCP Wave

Molecular Cloud

Molecular Gas

observational data interpretation

Optical Depth

Radio Galaxies

radio spectral analysis

Rotation Curve

Solar Radio Emission

Star Formation Rate

Stellar Mass

Synchrotron Radiation

undergraduate science textbook

Product details

ISBN 9780367779825
Weight: 780g
Dimensions: 178 x 254mm
Publication Date: 31 Mar 2021
Publisher: Taylor & Francis Ltd
Publication City/Country: GB
Product Form: Paperback

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As demonstrated by five Nobel Prizes in physics, radio astronomy has contributed greatly to our understanding of the Universe. Courses covering this subject are, therefore, very important in the education of the next generation of scientists who will continue to explore the Cosmos.

This textbook, the second of two volumes, presents an extensive introduction to the astrophysical processes that are studied in radio astronomy. Suitable for undergraduate courses on radio astronomy, it discusses the physical phenomena that give rise to radio emissions, presenting examples of astronomical objects, and illustrating how the relevant physical parameters of astronomical sources can be obtained from radio observations.

Unlike other radio astronomy textbooks, this book provides students with an understanding of the background and the underlying principles, with derivations available for most of the equations used in the textbook.

Features:

Presents a clear and concise discussion of the important astronomical concepts and physical processes that give rise to both radio continuum and radio spectral line emission
Discusses radio emissions from a variety of astronomical sources and shows how the observed emissions can be used to derive the physical properties of these sources
Includes numerous examples using actual data from the literature

Ronald L. Snell is a professor of astronomy at the University of Massachusetts, Amherst. His research interests include the physical and chemical properties of molecular clouds, star formation, and molecular outflows; he also has extensive experience observing at radio wavelengths. He earned a PhD in astronomy from the University of Texas at Austin.

Stanley E. Kurtz is a professor of radio astronomy and astrophysics at the National Autonomous University of Mexico. His research interests include massive star formation, the interstellar medium, and radio astronomy instrumentation and techniques. He earned a PhD in physics from the University of Wisconsin at Madison.

Jonathan M. Marr is a senior lecturer of physics and astronomy at Union College. His research involves high-resolution, radio-wavelength observations of radio galaxies and the Galactic center. He earned a PhD in astronomy from the University of California, Berkeley.