© NASA/Ricardo Nunes

Venus at greatest elongation east

Thu, 12 Jan 2017 at10:52 EST(74 days ago)
15:52 UTC

Dominic Ford, Editor
From the Inner Planets feed

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The sky at

Venus will be well placed for observation in the evening sky, shining brightly at mag -4.4.

From Newark (click to change), it will become visible at around 17:08 (EDT) as the dusk sky fades, 34° above your south-western horizon. It will then sink towards the horizon, setting 3 hours and 58 minutes after the Sun at 20:45.

Venus's orbit lies closer to the Sun than the Earth's, meaning that it always appears close to the Sun and is very difficult to observe most of the time.

It is observable only for a few weeks each time it reaches greatest separation from the Sun – moments referred to as greatest elongation.

On these occasions, however, Venus is so bright and conspicuous that it becomes the third brightest object in the sky after the Sun and Moon. It is often called the morning or evening star.

These apparitions take place alternately in the morning and evening skies, depending whether Venus lies to the east of the Sun or to the west.

When it lies to the east, it rises and sets a short time after the Sun and is visible in early evening twilight. When it lies to the west of the Sun, it rises and sets a short time before the Sun and is visible shortly before sunrise.

On this occasion, it lies 47° to the Sun's east.

Venus in coming weeks

The key moments in this apparition of Venus are as follows:

12 Jan 2017 10:52 EST – Venus at greatest elongation east
14 Jan 2017 08:13 EST – Venus at dichotomy
18 Feb 2017 10:42 EST – Venus at greatest brightness
25 Mar 2017 06:12 EDT – Venus at inferior solar conjunction

After greatest elongation, the distance between Venus and the Sun will decrease each night as it sinks back into the Sun's glare. The table below lists how long Venus will remain up after sunset each night; all times are given in Newark local time.

Date Sun
sets at
Venus
sets at
Altitude of Venus
at sunset
Direction of Venus
at sunset
05 Jan 201716:3820:3533°south-west
12 Jan 201716:4520:4636°south-west
19 Jan 201716:5320:5538°south-west
26 Jan 201717:0121:0139°south-west
02 Feb 201717:1021:0540°south-west
09 Feb 201717:1921:0540°south-west
16 Feb 201717:2721:0138°south-west
23 Feb 201717:3620:5135°west
02 Mar 201717:4420:3231°west
09 Mar 201717:5120:0424°west
16 Mar 201718:5920:2515°west

A graph of the angular separation of Venus from the Sun around the time of greatest elongation is available here.

Venus's position

The position of Venus when it reaches greatest elongation will be:

Object Right Ascension Declination Constellation Magnitude Angular Size
Venus 22h45m10s -08°27' Aquarius -4.4 24.4"
Sun 19h36m -21°34' Sagittarius -26.7 32'31"

The coordinates above are given in J2000.0.

Seasonal effects

At each apparition, Venus reaches a similar separation from the Sun – around 48°. This distance is set by the geometry of how big Venus's orbit is, and how far away it is from the Earth.

Nonetheless, some times of the year are more favourable for viewing Venus than others.

It appears most favourably in the evening sky around the time of the local spring equinox, and most favourably in the morning sky around the local autumn equinox.

These dates are reversed in the northern and southern hemispheres, such that a good apparition in one hemisphere will not be easily observable from the other.

This is comes about because Venus always lies close to the line of the ecliptic, shown in yellow in the planetarium above. This is the line through the zodiacal constellations that the Sun follows through the year, and marks the flat plane in space in which all of the planets circle the Sun.

When Venus remains in the sky for a few hours after the Sun has set, its altitude above the horizon depends on two factors.

One is its angular separation from the Sun. But equally important is how steeply the line of the ecliptic is inclined to the horizon.

If Venus is widely separated from the Sun along the ecliptic, this may not translate into a high altitude if the ecliptic meets the horizon at a very shallow angle, running almost parallel to it.

Conversely, if the ecliptic is almost perpendicular to the horizon, a much smaller separation from the Sun may place Venus higher in the sky.

The inclination of the ecliptic plane to the horizon at Newark varies between 72° (sunset at the spring equinox) and 25° (sunset at the autumn equinox). On January 12, the ecliptic is inclined at 54° to the western sunset horizon, as shown by the yellow line in the planetarium view above, meaning that on this occasion Venus is moderately well placed for viewing from Newark.

The sky on 12 January 2017
Sunrise: 07:18
Sunset: 16:49
Twilight
from 05:41
until 18:26

14-day old moon
Age of Moon:
14 days

All times shown in EST.
Rise Culm. Set
Mercury 05:40 10:26 15:12
Venus 09:38 15:12 20:46
Moon 17:38 00:43 06:55
Mars 09:59 15:44 21:29
Jupiter 00:13 05:51 11:28
Saturn 05:12 09:54 14:37

Source

The circumstances of this event were computed using the DE405 planetary ephemeris published by the Jet Propulsion Laboratory (JPL).

This event was automatically generated by searching the ephemeris for planetary alignments which are of interest to amateur astronomers, and the text above was generated based on an estimate of your location.

Related news

12 Jan 2017, 10:52 ESTVenus at greatest elongation east
14 Jan 2017, 08:13 ESTVenus at dichotomy
18 Feb 2017, 10:42 ESTVenus at greatest brightness
25 Mar 2017, 06:12 EDTVenus at inferior solar conjunction

Image credit

© NASA/Ricardo Nunes

Newark

Latitude:
Longitude:
Timezone:

40.74°N
74.17°W
EDT

Color scheme