In 2012, scientists announced they had discovered an exoplanet twice the size of Earth believed to be made largely of diamond. Astronomers said the rocky planet, called 55 Cancri e, was likely covered in graphite and diamond, rather than water and granite.
How much is the planet made of diamonds worth?
The Diamond Planet is estimated to be worth $26.9 nonillion (26.9 plus 30 zeros) which makes the Diamond Planet worth 384 quadrillion times as much as planet Earth’s GDP ($70 trillion), according to Forbes.
What planet is rich in diamonds?
High pressure experiments suggest large amounts of diamonds are formed from methane on the ice giant planets Uranus and Neptune, while some planets in other planetary systems may be almost pure diamond.
What planet’s core is made of diamond?
First-known diamond-rich exoplanet—55 Cancri e
Earlier astronomers dubbed 55 Cancri e— an exoplanet twice the size of planet Earth—to be one of the candidates that support perfect conditions to create diamonds in its core.
Does it rain diamonds on any planet?
Deep within the hearts of Neptune and Uranus, it could be raining diamonds. Now, scientists have produced new experimental evidence showing how this could be possible.
What is the most expensive thing in the universe?
An astroid named 16 Psyche, after Cupid’s wife, was found to be made almost entirely of iron and nickel. That means, in current US markets, 16 Psyche is worth somewhere around $10,000 quadrillion (the world’s economy is around $74 trillion).
How much is a Nonillion worth?
Here’s a good interview question to test their smarts: What is the diamond planet worth? The answer: $26.9 nonillion ($26.9 followed by 30 zeros).
Does it rain diamonds on Jupiter?
In fact, this is what scientists have been searching for lately, and was proven through modern discoveries thanks to chemistry; the sky can rain diamonds on Saturn and Jupiter.
Does it rain diamonds on Venus?
Planets such as Venus and Jupiter lack our atmosphere rich in nitrogen and oxygen, and there is no moisture to drive a lifegiving water cycle. … For example, according to a report in Nature, scientists believe it could be raining diamonds on Jupiter, Saturn and Uranus.
Does it rain diamonds on Titan?
Diamonds big enough to be worn by Hollywood film stars could be raining down on Saturn and Jupiter, US scientists have calculated. Lightning storms turn methane into soot (carbon) which as it falls hardens into chunks of graphite and then diamond. …
Is there gold on the moon?
There is water on the moon … along with a long list of other compounds, including, mercury, gold and silver. Turns out the moon not only has water, but it’s wetter than some places on earth, such as the Sahara desert. …
Are Saturn’s rings made of diamonds?
The super-high pressure of the planet, which orbits a rapidly pulsing neutron star, has likely caused the carbon within it to crystallize into an actual diamond, a new study suggests. …
Is there a super Earth?
Super-Earths – a class of planets unlike any in our solar system – are more massive than Earth yet lighter than ice giants like Neptune and Uranus, and can be made of gas, rock or a combination of both. They are between twice the size of Earth and up to 10 times its mass.
What planet rains fire?
If you thought living on Earth in 2020 was comparable to hell, planet K2-141b is here to prove you wrong. On the scorching hot planet, hundreds of light-years away, oceans are made of molten lava, winds reach supersonic speeds and rain is made of rocks.
What if it rained diamonds?
A diamond rain would bring total destruction down to Earth. The falling gems would be tiny a like a pebble, or small like a baseball. … If the Earth had such a rich supply of gems, they’d stop being so rare and desirable, and their market price would plunge down.
Are there giant diamonds in the earth?
The answer: diamonds, and lots of them. Combined with a dash of oceanic crust rock called eclogite, just over a quadrillion—a one with 15 zeroes—tons of diamonds are hiding within Earth, they estimate. To be fair, that’s only a small percentage of the total rocks on Earth, Garber notes.