Transit of Mercury
When Mercury transits the Sun, you can see it as a tiny black dot silhouetted against the Sun's disk. The next time is on November 11/12, 2019.
What Is a Transit?
Every so often, a planet lines up in a way which blocks out part of the Sun's rays from reaching Earth, called a transit.
The only two planets that can be seen transiting the Sun from Earth are Venus and Mercury because they are the only planets which orbit inside Earth's orbit.
When Is the Next Transit?
Use Telescope or Binoculars
Because Mercury is so small and far away from Earth, you need a telescope or binoculars with a proper Sun filter to see it.
Never look directly at the Sun without proper eye protection. You can seriously hurt your eyes and even go blind.
How Often Do They Happen?
This is because during a May transit, Mercury is close to aphelion – furthest away from the Sun – whereas during a November transit, it is closest to the Sun, at perihelion. This is also why Mercury appears a fraction larger during May transits.
Predicted by Kepler
German astronomer Johannes Kepler (1571–1630) first predicted that a Mercury transit would take place at the end of May 1607. On May 28, 1607, Kepler did observe a black spot on the Sun using a makeshift camera obscura. However, what he saw, was a sunspot, but at the time European astronomers were not aware of these imperfections on the Sun and explained them as planet transits. When astronomers later discovered sunspot using telescopes, Kepler realized his mistake and published a retraction.
The next Mercury transit he predicted would take place on November 7, 1631, but he did not live to see it happen. Astronomers all over Europe prepared to observe the event, but due to bad weather, only French astronomer Pierre Gassendi (1592–1655) was able to observe this transit, the year after Kepler died.
Black Drop Effect
In the past, observers watching Venus transits have reported seeing a small black shape of a teardrop, which appears to connect the blackened disk of Venus to the visual edge of the Sun.
The black drop effect was originally believed to be caused by Venus' thick atmosphere. However, this theory was abandoned when the effect was also observed during the Mercury transit in 1999, because Mercury has no significant atmosphere.
Today, astronomers believe the effect is partly due to diffraction, the fact that light waves bend around the corners of an obstacle, and a kind of smearing caused by imperfections in viewing apparatuses. As telescopes and lenses have improved over time, the black drop effect has lessened.
Transit, Eclipse or Occultation?
When the Moon blocks the sunlight from reaching us on Earth, it is called an occultation or an eclipse.
Occultation means blocked from view entirely, while eclipse is a broader term. It can mean occultation but also to dim or partially obscure, like during a lunar eclipse.
The Moon is the only object lagre enough and close enough to Earth that it can completely cover the Sun's disk from view. A Total Solar Eclipse is effectively the same as the Moon occulting the Sun.
Upcoming 5 Planet Transits
Next Mercury Transit88Days 17Hrs 0Mins 10Secs
11. Nov 2019, 12:34 UTC … See more
- Transit of Mercury
- Transit of Venus
- When Is the Next Solar Eclipse?
- Different Types of Eclipses
- What Are Solar Eclipses?
- How Often Do Solar Eclipses Occur?
- Total Solar Eclipses
- Partial Solar Eclipses
- Annular Solar Eclipses
- Hybrid Solar Eclipses
- Solar Eclipses in History
- Solar Eclipse Myths
- Magnitude of Eclipses
- When Is the Next Lunar Eclipse?
- Total Lunar Eclipse
- Why Does the Moon Turn Red?
- Partial Lunar Eclipse
- Penumbral Lunar Eclipse
- Can I See a Lunar Eclipse?
- Blood Moon - Total Lunar Eclipse
- Magnitude of Eclipses