© NASA/Hinode 2012.

Transit of Venus

Dominic Ford, Editor
From the Inner Planets feed

Objects: Venus
Simulation of the transit as seen from Cambridge
Time:       Altitude: °      Azimuth: °




Roughly 13–14 times each thousand years, Venus passes directly in front of the Sun, casting a black silhouette in front of the solar disk for a few hours. Such a transit will occur on 11 June 2247, lasting from 04:41 until 10:25 EDT.

Between those times, the transit will be visible from anywhere on Earth, providing the Sun is above the horizon, including from the Americas, Russia, Africa, Asia and Europe.

Venus last transited the Sun in December 2125, and its next transit will be in June 2255.

The simulation to the right shows the path that Venus will take across the Sun's disk, drawn to scale. The Sun is more than 100 times larger than Venus, and so the latter appears as a small black dot in comparison to the Sun's disk.

By default, the simulation is drawn with respect the local vertical in Cambridge (Zenith up), matching how the Sun would appear when viewed through some suitably filtered telescope or a solar projection unit. Viewing the Sun through any optical instrument is incredibly dangerous, however, and tips for doing so safely are given below.

The compass within the simulation shows the direction of celestial north relative to the local vertical. You can orientate the simulation with celestial north orientated uppermost by selecting the option North up. Because Mercury is so far away, its path across the Sun is almost identical regardless of your location on Earth, though the orientation of your local vertical will differ.

Begin typing the name of a town near to you, and then select the town from the list of options which appear below.

Selecting the option Diagram of Venus's path will produce a static display of the Venus's path through the course of the transit.

The lower panel of the simulation shows the Sun's position relative to the local horizon in Cambridge.

Planetary alignment

Venus orbits the Sun once every 225 days, completing each revolution around the Sun in around 7–8 Earth months. Since Venus orbits the Sun more quickly than the Earth, it occasionally overtakes the Earth in its orbit, and at such times the two planets lie side-by-side in their respective orbits.

This alignment is called inferior solar conjunction and occurs once every 584 days (roughly 19 Earth months) – a period called Venus's synodic period. It takes place as Venus moves from the evening sky into the morning sky. Even though Venus invariably passes very close to the Sun at these times, it rarely passes exactly in front of the Sun's disk.

Venus orbits the Sun in a slightly different plane from the Earth: its orbit is tipped up at an angle of 3.4° relative to Earth's orbit. The diagram below show this inclination of Venus's orbit (not drawn to scale), with a grid representing the plane of the ecliptic – the plane in which the Earth orbits in Sun.

The geometry of Venus's orbit (not to scale)

Venus spends much of its time significantly above or below the plane of the Earth's orbit, and at such times it cannot pass directly in front of the Sun. If it passes inferior conjunction at such a time, it will appear to pass to the side of the Sun.

Venus can only pass in front of the Sun if it passes inferior conjunction while it is also very close to the Earth–Sun plane. It crosses through this plane twice on each orbit around the Sun, roughly once every 112 days, at the points on the left and right sides of the diagram above. These points are called the nodes of Venus's orbit.

The nodes of Venus's orbit lie alongside the points along the Earth's orbit that as pass on around June 7 and December 9 each year. Consequently, transits of Venus can only ever occur within a 1–2 days of these two possible dates.

Due to the precession of the equinoxes, these two dates advance through the year at a rate of roughly one day every 100 years.

This requirement for Venus to pass one of the nodes of its orbit at the same time that it also passes inferior conjunction is met on average only once every 75 years, though transits do not occur at regular intervals.

Each time, Venus can be seen to pass in front of the Sun from any location where the Sun is above the horizon at the time.

Map of where the transit will be visible. Click here to expand.

Further reading

For more information about safely observing the Sun, we recommend Lee Macdonald's excellent book How to Observe the Sun Safely , published by Springer in 2012.

The position of Venus at the moment of closest approach to the centre of the Sun's disk will be:

Object Right Ascension Declination Constellation Angular Size
Venus 05h17m20s 23°03'N Taurus 57.8"

The coordinates above are given in J2000.0.

Next/previous transits

« Previous Next »
Visible from the Contiguous United States Worldwide Worldwide Visible from the Contiguous United States
08 Dec 2125 08 Dec 2125 Transits of Venus 09 Jun 2255 10 Dec 2368
13 Nov 2236 13 Nov 2236 Transits 16 Nov 2249 16 Nov 2249

The sky on 21 Nov 2024

The sky on 21 November 2024
Sunrise
06:40
Sunset
16:16
Twilight ends
17:55
Twilight begins
05:01

20-day old moon
Waning Gibbous

59%

20 days old

Planets
Rise Culm. Set
Mercury 08:38 12:59 17:20
Venus 10:08 14:29 18:51
Moon 20:55 04:36 12:04
Mars 20:43 04:09 11:36
Jupiter 17:18 00:49 08:20
Saturn 13:06 18:36 00:07
All times shown in EST.

Warning

Never attempt to point a pair of binoculars or a telescope at an object close to the Sun. Doing so may result in immediate and permanent blindness.

Source

The circumstances of this event were computed using the DE430 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

11 Jun 2247  –  Transit of Venus
21 Aug 2247  –  Venus at greatest elongation west
08 Sep 2247  –  Venus at highest altitude in morning sky
05 Nov 2248  –  Venus at greatest elongation east

Image credit

© NASA/Hinode 2012.

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