TIME SCALES AND COORDINATE SYSTEMS, Section B
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Page B6, The equation of the equinoxes and the paragraph following should read:
equation of equinoxes = $\frac{1}{15} (\Delta\psi\ cos\ \varepsilon + 0.\!\!^{\prime\prime}002\,64\ sin\ \Omega + 0.\!\!^{\prime\prime}000\,63\ sin\ 2\Omega)$
and Δψ is the total nutation in longitude, ε is the mean obliquity of the ecliptic and Ω is the mean longitude of the ascending node of the Moon. The equation of the equinoxes is tabulated on pages B8-B15 at 0hUT for each day and should be interpolated to the required time if full precision is required.
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Pages B18, B20, B21, and B23: The wrong symbol was used to define the obliquity of the ecliptic.
SUN, Section C
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Page C24: The wrong symbol was used to define the obliquity of the ecliptic.
MAJOR PLANETS, Section E
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Page E88, First table, Heading for the last column under Coefficient of the Potential:
for 108J4 read 106J4
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Page E88, Second table, Heading for the second column under Mean Density, mean density for Pluto:
for 1.1g/cm3, read 2.1 g/cm3
SATELLITES OF THE PLANETS, Section F
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Page F2, the entry in the last column of the table for Neptune VIII Proteus:
for 0.5232 read 28.25
STARS AND STELLAR SYSTEMS, Section H
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Page H61, the entry in the last column of the table for 1228+126 (3C 274)
for 17.90 Jy read 71.90 Jy
ASTRONOMICAL CONSTANTS, Section K
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Page K6, the wrong symbol was used to define the obliquity of the ecliptic.
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Page K8, second to last line,
for - 0.000 091 (n')(year -1955)2 seconds, read -0.000 091 (n' + 26)(year -1955)2 seconds.