Section8

swe_deltat_ex

swe_deltat

swe_set_tid_acc

swe_get_tid_acc

swe_set_delta_t_userdef

Julian day number (UT) as numeric vector (day)

jd_ut

ephemeris flag as integer (SE$FLG_JPLEPH=1, SE$FLG_SWIEPH=2 or SE$FLG_MOSEPH=4)

ephe_flag

Tidal acceleration as double (arcsec/century^2)

t_acc

delta_t

Functions related to DeltaT and tidal acceleration

The Swiss Ephemeris (version 2.08) is a high precision ephemeris based upon the
DE431 ephemerides from NASA's JPL. It covers the time range 13201 BCE to
17191 CE. This package uses the semi-analytic theory by Steve Moshier.
For faster and more accurate calculations, the compressed Swiss Ephemeris
data is available in the 'swephRdata' package. To access this data package,
run 'install.packages("swephRdata", repos = "https://rstub.github.io/drat/",
type = "source")'. The size of the 'swephRdata' package is approximately
115 MB. The user can also use the original JPL DE431 data.

Ralf Stubner

swephR

High Precision Swiss Ephemeris

Victor Reijs

Authors and copyright holder of the Swiss Ephemeris 

Section8 function

<dl><dt>jd_ut</dt>
<dd>Julian day number (UT) as numeric vector (day)</dd>
<dt>ephe_flag</dt>
<dd>ephemeris flag as integer (SE$FLG_JPLEPH=1, SE$FLG_SWIEPH=2 or SE$FLG_MOSEPH=4)</dd>
<dt>t_acc</dt>
<dd>Tidal acceleration as double (arcsec/century^2)</dd>
<dt>delta_t</dt>
<dd>DeltaT (day)</dd></dl>

Arguments

Section 8: Delta T-related functions — Section8

<dl>

<dt>jd_ut</dt>
<dd>Julian day number (UT) as numeric vector (day)</dd>


<dt>ephe_flag</dt>
<dd>ephemeris flag as integer (SE$FLG_JPLEPH=1, SE$FLG_SWIEPH=2 or SE$FLG_MOSEPH=4)</dd>


<dt>t_acc</dt>
<dd>Tidal acceleration as double (arcsec/century^2)</dd>


<dt>delta_t</dt>
<dd>DeltaT (day)</dd>

</dl>

Section8: Section 8: Delta T-related functions

Description

Usage

Value

Arguments

Details

See Also

Examples