Vulcan and Vulcanoids, or The Planet That Never Was There But The Asteroids That Could Be

Vulcan with some Vulcanoids for company.
Vulcan with some Vulcanoids for company. | Source

Ever heard about the planet before Mercury? Didn’t think so. Once thought to exist based off a series of important calculations in the 19th century, the planet Vulcan (not the one from Star Trek, mind you) has been tossed to the trashbin of history. However, it did spurn an idea for which no definite conclusion has been reached-yet. But, I have gotten ahead of myself so let’s start at the beginning.

How Math Led Us Astray

The first search for the planet Vulcan began in 1611 after Christoph Scheimer saw a dark spot on the surface of the Sun. Mercury was not around that position at the time, so what could it be? Scientists now suspect he saw a sunspot but at the time, it was a big mystery. However, Mercury does occasionally transit in from of the Sun, and in the 1700’s scientists wanted to record them so that they could calculate solar system distances, with the Mercury-Sun distance as a reference, using trigonometry. However, predictions of the transits proved to be difficult with many scientists being off by as much as an hour! How could this happen? Slowly they began to realize that everything and not just the Sun pulls on Mercury courtesy of Newton’s gravity. With this in mind, long and tedious calculations were made to try to take these tugs into account, therefore getting an accurate Mercury orbit (Plait 35-6, Asimov).

By the 1840’s, Urbain Le Verrier, known for his discovery of Neptune, noticed that some irregularities still existed in the orbit of Mercury. He found that something unaccounted for seemed to pull on it when Mercury was at perihelion, or its closest approach to the Sun. Could a mystery planet exist? He called this postulated planet Vulcan after the god of the forge (for it would be a hot place) and began an immediate search (Plait 35-6, Asimov).

He got even more excited when astronomer Lescarbault reported a small dot passing in front of the Sun that was not Mercury or Venus in 1845. Le Verrier jumped on it and after reviewing the data he found that the object would be an average of 21 million miles from the Sun, would have a diameter of 2000 kilometers and a year of 19.7 days, and if similar in make-up to Mercury would be about 1/17 Mercury’s mass. But Vulcan would also be at most about 8 degrees above/below the Sun, so viewing Vulcan could only happen at twilight. Also, it was not massive enough to account for Mercury’s movement so he thought maybe more asteroids were present also (Asimov).

Telescopes by Le Verrier’s time had gotten much better but no signs of a planet were found despite Simon Newcomb’s finding that Mercury’s orbit was found to be off by 0.104 seconds of arc, implying that something should be there. But we cannot blame Le Verrier’s reasoning. He was working with Newtonian gravity. But we have Einstein’s relativity, and the mystery of the orbit was solved. As it turns out, Mercury is close enough to the Sun that it suffers frame dragging of the space-time fabric, a result of Einstein’s relativity, affecting its orbit when close to our star (Plait 36, Asimov).

Graphical representation of Mercury's position with regards to the Sun and the hypothesized Vulcan.
Graphical representation of Mercury's position with regards to the Sun and the hypothesized Vulcan. | Source

The Vulcanoids

But now the idea was planted in people’s minds. Could something be there? Or somethings? After all, Urbain said it was either a planet or some debris orbiting the Sun. Could there be tons of leftovers from the formation of the solar system between the Sun and Mercury, hidden from us by the intensity of the Sun? Other zones like between Mars and Jupiter and past Neptune are full of a group of objects, so why not this zone also? (Plait 35-6, Campbell 214)

To be clear, it is a very specific zone. If anything exists there, it cannot be too close to the Sun otherwise it would burn up but if it were too close to Mercury then that planet would capture it and the asteroids would collide with it. Some think the surface of Mercury already displays the evidence of this. Don’t forget the Yarkovsky effect, which deals with the heated versus cooled sides of an orbiting object exerting a net force away. Plus, erosion from the solar wind may have completely faded any material that was there, so models have to be tweaked constantly with new data to even show that Vulcanoids could have survived the 4.5 billion years post-solar system birth. But with these considerations in hand, a possible zone between 6.5-20 million miles from the Sun does exist. Altogether, it is a few quadrillion square miles to search (Plait 36, Campins 88-9, Stern 2).

Now, how big are Vulcanoids if they exist? Well they would have to be bigger than the average piece of space dust because the solar wind pushes that away from the Sun. In fact, something 100’s of meters would be affected by the solar wind. However, the Vulcanoids cannot be larger than 40 miles in diameter, for they would have been bright enough to be seen by now (Plait 36).

On top of those conditions, they would be spread out a max of 12 degrees of sky with the only chance of seeing them being at sunrise and sunset. One only has minutes a day to view under the best circumstances possible, and even then, you need software to remove the solar interference. On top of that, out atmosphere scatters light entering it, making it even more difficult to spot any Vulcanoids (36-7).

Chart showing how iron objects shrink in size as a function of distance form the Sun.
Chart showing how iron objects shrink in size as a function of distance form the Sun. | Source

On The Hunt

The early hunt for Vulcanoids was first conducted with photographic plates during total solar eclipses when the Sun would be blotted out long enough for any nearby objects to be detected. Searches by Perrine in 1902, 1906, 1909; Campbell and Trumpler in 1923; and Courten in 1976 found nothing of large size but did not rule out asteroids as possibly being present (Campins 86-7).

From 1979 through 1981 astronomers at the Kitt Peak Observatory used the 1.3-meter telescope to look at a 9 to 12 degree stretch of sky from the Sun, approximately 6 square degrees in total. Based on the likely composition of Vulcanoids (mainly iron) and the brightness of the Sun at the orbital range of the Vulcanoids, the team was hunting for 5th magnitude objects which correspond to a minimum radius of 5 kilometers based on reflectivity models. Nothing was found but those in the study acknowledge the limited span of sky searched and felt nothing negated the possibility of Vulcanoids still (91).

But the new promise of infrared array detectors prompted a new search from Kitt Peak in 1989. Because of the heat-seeking nature of the technology, fainter objects would stand out better due to their heat near the Sun. Potentially, 6th magnitude objects could be seen. Alas, a downside of the detector was the long exposure rate of 15 minutes. Vulcanoids according to Kepler’s Laws of Planetary motion would move at about 5 arc minutes an hour and with the proximity of the field, being examined by the time the exposure was done anything could have moved out of frame and become diffused to the point of not being seen (91-2).

Alan Stern, the man behind the New Horizons mission, and Dan Durda have been looking for the objects for over 15 years now. They think that Vulcanoids are not only real but that we can actually image them directly without having a blob of light to study. To accommodate for the Earth’s atmosphere and the glare of the sun, they designed a special UV camera nicknamed VULCAM that can fly on an F-18 jet, which is capable of going over 50,000 feet. In 2002, they gave it a go but amazingly, the sun was still too bright to image anything around it, even when the attempt was made at twilight. So what about space cameras? Unfortunately, because sunrises and sunsets are the only way to see Vulcanoids combined with the fast rate, which objects orbit the Earth means that observing time is down to a few seconds. Beyond Earth, the Solar Dynamic Observatory, MESSENGER, and STEREO all looked but came up with nil (Plait 35, 37; Britt). So while the story seems to have its conclusion in hand, one never knows what could happen...

Works Cited

Asimov, Isaac. “The Planet That Wasn’t.” The Magazine of Fantasy and Science Fiction May 1975. Print.

Britt, Robert Roy. “Vulcanoid Search Reaches New Heights.” NBCNews.com. NBC Universal, 26 Jan. 2004. Web. 31 Aug. 2015.

Campbell, W.W. and R. Trumpler. “Search for Intramercurial Bodies.” Astronomical Society of the Pacific 1923: 214. Print.

Campins, H. et al. “Searching for Vulcanoids.” Astronomical Society of the Pacific 1996: 86-91. Print.

Plait, Phil. “Invisible Planetoids.” Discover Jul. /Aug. 2010: 35-7. Print.

Stern, Alan S. and Daniel D. Durda. “Collisional Evolution in the Vulcanoid Region: Implications for Present-Day Population Constraints.” arXiv:astro-Ph/9911249v1.

© 2015 Leonard Kelley

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Comments 6 comments

Ruth Angel profile image

Ruth Angel 10 months ago from New Mexico

Yet another great piece my friend.


1701TheOriginal profile image

1701TheOriginal 10 months ago Author

Thank you Ruth. Very glad to hear from you and hope all is well!


Ruth Angel profile image

Ruth Angel 10 months ago from New Mexico

No problem! All is well, haven't had much time to compose any new articles as of late. In fact my most recent publishing definitely was not up to my usual standards, as I did it in a rush.

Hope you're doing well!


1701TheOriginal profile image

1701TheOriginal 10 months ago Author

Thanks Ruth. I bet its hard with all the graduate work you got to get done. I applaud your efforts and hard work!


Ruth Angel profile image

Ruth Angel 10 months ago from New Mexico

I'm actually not even graduate level yet. I'm in my first year of my 4 year degree process. Then i'll be on to my Masters. But thank you! I have a bit of a road a head of me, to say in the least.


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1701TheOriginal 10 months ago Author

But it will be well worth it!

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