Does It Really Rain Diamonds On Saturn and Jupiter? These Scientists Certainly Seem To Think So
Language
Reading Level
Listen to Article
We have heard of the occasional fish, tadpole and even spider raining down from the skies, but diamonds? That is definitely a first! Unfortunately, this miracle is not happening anywhere on earth but over 830 million miles (1.2 billion km) away, on Saturn and Jupiter.
At least that is what planetary scientists from NASA's Jet Propulsion Lab in Southern California seem to think after conducting extensive research, the results of which were presented at the 45th annual meeting of the Division of Planetary Scientists that was held in Denver, Colorado from October 6-11th, 2013.
According to Dr. Kevin Baines, the lead researcher on the project, over 1,000 tons of diamonds are being created every year on Saturn. Given that the ringed planet is too far to actually see this phenomenon, the initial reaction to this assertion is skepticism. But the scientist says that his team's conclusions are rooted in the basic principals of chemistry.
It is a well-known fact that about half of a percent of Saturn's atmosphere comprises of methane. Also, thanks to images sent in by NASA spacecraft Cassini, which has been orbiting the ringed planet since 2004, researchers know that Saturn is susceptible to giant lightning storms and even, hurricanes.
Using this information, Kevin and the study's co-author - planetary scientist Mona Delitsky, deduced that the lightning burns up the methane that is present in the atmosphere and transforms the odorless, colorless gas into something we are all familiar with - soot or carbon. As clouds of the black carbon are 'raining' down on the planet, they clump together and form graphite which gets subjected to intense pressure from the atmosphere as it gets closer to the planet's core and transforms into the shiny precious stones that we lovingly call diamonds. While Jupiter's atmosphere comprises of only 0.2% methane the scientists believe that a similar phenomenon occurs there too.
But before you try get the next shuttle out there, you should know that thanks to the extremely hot core of both these planets, the diamonds do not stay in solid form too long. Baines believes that they melt when they closer to the planet's surface, where temperatures exceed 8,000 Kelvin (13,940°F) and are most likely, transformed into other materials.
Not all scientists are convinced about this new study. University of Arizona planetary scientist William Hubbard thinks that due to the relatively low amount of methane in the atmosphere of the two planets, not enough soot is produced for diamond production - He thinks that whatever little is created, is destroyed by the ever increasing pressure and high temperatures encountered by the soot as it is falling.
This is not the first time scientists have speculated about diamond rain. Uranus and Neptune are long known to be diamond treasure troves. Not only does their atmosphere comprise of 15% methane, but also, the temperature does not get to over 3,820 Kelvin (6,416°F), the melting point of diamonds. This means that the precious stones that fall are most likely strewn all over the planets just waiting to be picked up! While this may be possible some day, for now it is just wishful thinking. Here's hoping that one day our skies will open up and spew out the shiny stuff too!
Resources: dailymail.co.uk, Nationalgeographic.com,Gizmondo.com
Cite Article
Geography
Learn Keywords in this Article
875 Comments
- furious destroyalmost 7 yearswill it rain diamonds here
- The Queen almost 7 yearsDoes it rain diamonds on every planet in the solar system
- Ayoalmost 7 yearshow about mars
- Ayoalmost 7 yearsI wonder if it rains diamonds on other planets
- The Random Foxalmost 7 yearsThis is really informing. Diamonds are really cool, and to think that they perish is even more cool. I didn't know this till i looked at a go-gurt stick, It said When it rains on Jupiter it rains diamonds! I didn't believe it, so i searched it up and found this! The pictures are well taken and high quality too. I hope you do as good as this, or even better on another research! Good luck! And i rate this a 10/10 <3
- ayoalmost 7 yearsplop i found your post inspiring
- ayoalmost 7 yearsearth is not like jupter
- ayoalmost 7 yearsits real good at wills bhrthday party
- jacksonalmost 7 yearssup
- ayoalmost 7 yearsok i want more diamonds