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200 10$aUsing SI units in astronomy /$fRichard Dodd$b[electronic resource]
210  1$aCambridge :$cCambridge University Press,$d2012.
215   $a1 online resource (xiii, 230 pages) $cdigital, PDF file(s)
300   $aTitle from publisher's bibliographic system (viewed on 05 Oct 2015).
311   $a0-521-76917-5 
320   $aIncludes bibliographical references and index.
327   $aCover; USING SI UNITS IN ASTRONOMY; Title; Copyright; Contents; Preface; Acknowledgments; 1 Introduction; 1.1 Using SI units in astronomy; 1.2 Layout and structure of the book; 1.3 Definitions of terms (lexicological, mathematical and statistical); 1.3.1 Lexicological and mathematical; 1.3.2 Statistical; 1.4 A brief history of the standardization of units in general; 1.5 A brief history of the standardization of scientific units; 1.6 The future of SI units; 1.7 Summary and recommendations; 1.7.1 Summary; 1.7.2 Recommendations; 2 An introduction to SI units; 2.1 The set of SI base units
327   $a2.2 The set of SI derived units2.3 Non-SI units currently accepted for use with SI units; 2.4 Other non-SI units; 2.5 Prefixes to SI units; 2.5.1 CGPM-approved prefixes for SI units; 2.5.2 Unofficial prefixes for SI units; 2.5.3 Powers of 1000; 2.5.4 Some astronomical examples; 2.5.5 Other methods of denoting very large or very small numbers; 2.6 IAU recommendations regarding SI units; 2.6.1 Angle; 2.6.2 Time; 2.6.3 Distance and mass; 2.6.4 Wavenumber; 2.6.5 Magnitude; 2.7 Summary and recommendations; 2.7.1 Summary; 2.7.2 Recommendations; 3 Dimensional analysis
327   $a3.1 Definition of dimensional analysis3.1.1 The dimensions of the SI base units; 3.1.2 Dimensions of some of the SI derived units; 3.2 Dimensional equations; 3.3 Summary and recommendations; 3.3.1 Summary; 3.3.2 Recommendations; 4 Unit of angular measure (radian); 4.1 SI definition of the radian; 4.2 Commonly used non-SI units of angular measure; 4.2.1 Converting from (° ' "") and (h m s) to radians; 4.3 Spherical astronomy; 4.3.1 Spherical triangles; 4.3.2 Coordinate systems in astronomy; 4.3.3 Relationships between astronomical coordinate systems; 4.4 Angular distances and diameters
327   $a4.4.1 Distances between pairs of astronomical objects4.4.2 Field or plate scale determination; 4.5 Steradian; 4.5.1 Conversions between sexagesimal and steradian measures; 4.5.2 Area of the constellation Crux; 4.5.3 Further examples of angular area measurement in astronomy; 4.6 Summary and recommendations; 4.6.1 Summary; 4.6.2 Recommendations; 5 Unit of time (second); 5.1 SI definition of the second; 5.2 Definition of time; 5.3 Systems of time or time scales; 5.3.1 Dynamical time; 5.3.2 Atomic time; 5.3.3 Time systems currently in use; 5.3.4 Multiples of the second; 5.3.5 Leap second
327   $a5.3.6 Relationships between mean solar time and mean sidereal time5.3.7 The month; 5.3.8 The year; 5.3.9 ISO8601 standard on dates and time; 5.4 The hertz: unit of frequency; 5.5 Angular motion; 5.5.1 Angular velocity and acceleration; 5.5.2 Rotation period and period of revolution; 5.5.3 Proper motions; 5.5.4 Proper-motion catalogues; 5.6 The determination of the ages of celestial bodies; 5.6.1 Nucleocosmochronology; 5.6.2 Pulsars; 5.7 Summary and recommendations; 5.7.1 Summary; 5.7.2 Recommendations; 6 Unit of length (metre); 6.1 SI definition of the metre
327   $a6.2 Linear astronomical distances and diameters
330   $aA multitude of measurement units exist within astronomy, some of which are unique to the subject, causing discrepancies that are particularly apparent when astronomers collaborate with researchers from other disciplines in science and engineering. The International System of Units (SI) is based on seven fundamental units from which other units may be derived, but many astronomers are reluctant to drop their old and familiar systems. This handbook demonstrates the ease with which transformations from old units to SI units may be made. Using worked examples, the author argues that astronomers would benefit greatly if the reporting of astronomical research and the sharing of data were standardized to SI units. Each chapter reviews a different SI base unit, clarifying the connection between these units and those currently favoured by astronomers. This is an essential reference for all researchers in astronomy and astrophysics, and will also appeal to advanced students.
606   $aCommunication in astronomy
606   $aMetric system
615  0$aCommunication in astronomy.
615  0$aMetric system.
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200 00$aQuantum quandaries$b[electronic resource] $e100 brainteasers from Quantum : the magazine of math and science /$fedited by Timothy Weber ; illustrated by Sergey Ivanov ; introduction by Mark Saul
210   $aArlington, VA $cNational Science Teachers Association$dc1996
215   $a1 online resource (207 p.)
300   $aEach page numbered in duplicate.
311   $a0-87355-136-2 
330   $aFor extra credit or just for the fun of it-why not try a brainteaser? This collection brings together the first 100 brainteasers from Quantum magazine, published by the National Science Teachers Association in collaboration with the Russian magazine Kvant. Through its pages, you'll find number rebuses, geometry ticklers, logic puzzles, and quirky questions with a physics twist. Students and teachers alike will enjoy these fun quandaries.
606   $aMathematical recreations
606   $aMathematics$vProblems, exercises, etc
606   $aScientific recreations
615  0$aMathematical recreations.
615  0$aMathematics
615  0$aScientific recreations.
676   $a510.4
701   $aWeber$b Timothy$01548954
701   $aIvanov$b Sergey$f1957-$01548955
712 02$aNational Science Teachers Association.
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