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Seven planets are going to be retrograde in the summer of 2023. Here are the dates for Mercury retrograde, Venus retrograde, Saturn retrograde, Neptune retrograde, Pluto retrograde and more.
A list of future observable astronomical events. [1] These are by no means all events, but only the notable or rare ones. In particular, it does not include solar eclipses or lunar eclipses unless otherwise notable, as they are far too numerous to list (see below for articles with lists of all these). Nor does it list astronomical events that ...
On August 28, 2023, Uranus will take a cosmic detour in the fixed earth sign of Taurus, where it will stay until January 27, 2024. Retrogrades have a big reputation in astrology for causing trouble.
The third Mercury retrograde of 2024 begins on August 4, 2024, and lasts until August 27, 2024, in the sign of Leo. Creative and confident, Leo is a sign that expresses itself freely and without ...
14 April 2023 Jupiter/Ganymede orbiter [495] Chandrayaan-3: 14 July 2023 Lunar orbiter, lander and rover; first soft landing near the lunar South Pole [496] [497] Luna 25: 10 August 2023 Attempted lunar south pole lander (crashed into Moon) [498] [499] Aditya-L1: 2 September 2023 Sun-observing spacecraft at Sun–Earth L 1 [500] SLIM (LEV-1, LEV-2)
The visible movement of the planet or the planets in the sky appears therefore normally prograde at the first conjunction, retrograde at the second conjunction, and again prograde at the third conjunction. The lining-up of three planets is a particular case of syzygy. There are three possible cases of triple conjunctions.
A total of five planets are going retrograde between May and September: Mercury, Saturn, Uranus, Neptune and Pluto. "Retrograde" is a term used to describe when a planet's orbit appears to slow.
This method works best for young planets that emit infrared light and are far from the glare of the star. Currently, this list includes both directly imaged planets and imaged planetary-mass companions (objects that orbit a star but formed through a binary-star-formation process, not a planet-formation process).