For over 18 years, a hidden gem has shaken the world of science since August 30, 2004. Have you ever wondered what the most opulent object discovered in the universe is? 55 Cancri E is a planet made up of a diamond fragment. Astronomers think they have found a planet in another solar system that is mostly made of diamonds. But you shouldn’t plan your next vacation there just yet. It is not genuinely habitable.
The surface temperature is excessively high for human survival. Unfortunately, it appears to be hellish. It emits an abundance of brilliant gems. The possibility of what it might look like is likely to stimulate your imagination. And, naturally, how much it would be worth if it were on earth. This makes Exoplanet 55 Cancri E not only physically but also scientifically and economically intriguing.
Characteristics of Exoplanet 55 Cancri E
In 2012, a model of the interior of 55 Cancri E indicated that its composition included carbon. The primary elements consist of graphite, iron, and silicon carbide. According to Nikku Madhusudhan, the leading researcher at Yale University, their model differs from past ones. This is because, unlike previous teams, they did not base their assumptions on the chemical composition of the Earth.
In 2013, however, Johanna Teske, an astronomy graduate student at the University of Arizona, contested this view. According to her claim, the parent star, or sun, of 55 Cancri E is cooler and contains more metals than the sun. She stated that the 2012 study may have made errors by wrongly studying the sole oxygen line in the spectra of the star. Instead, she found that the parent star of 55 Cancri E contains 25 percent more oxygen than carbon.
Exoplanet means “extraterrestrial planet.” It refers to planets outside of our solar system. 55 Cancri E, often known as “Janssen,” is one of the most extraordinary exoplanets identified to date. It is 41 light-years away from Earth and is located in the constellation Cancer. However, if the value is calculated in miles, The distance is 230 trillion miles. Other than having the name “Janssen”, 55 Cancri E has traditionally been referred to as “Super-Earth” since it shares many similarities with our planet but has significant variances that render it inhospitable for humans.
55 Cancri E is almost twice as large as the Earth and eight times as massive. This rocky planet is quite close to its parent star, 55 Cancri A. In reality, it is closer to our sun than Mercury, and its rotational period is the most intriguing aspect. It will orbit the Earth in under 18 hours. In contrast, Earth’s orbit around the sun required 365 days. Thus, one year on 55 Cancri E is equivalent to barely 18 hours on Earth.
In addition, because it is close to its sun, it is considered tidally locked. This means that one side of the globe always faces the sun, while the other half is eternally in darkness. Similar to how just one side of our satellite ever faced the Earth. The exoplanet was detected for the first time in 2004, and it is believed to be formed of diamond-like carbon crystals. The planet’s density is nearly double that of Earth, therefore, its surface gravity would be double that of ours.
Consequently, human beings cannot survive there. The close distance at which the planet orbits its star is another explanation for its habitability. Therefore, its surface temperature exceeds 2,000 degrees Celsius. Which is sufficiently heated to melt rock into magma. Extremely high temperatures change the carbon atoms on the surface of the planet as they descend towards its core. This becomes graphite, and eventually diamonds. As a result of the surface’s high temperature, any moisture would evaporate rapidly. This would prevent them from forming oceans similar to those on Earth.
This could explain why 55 Cancri E doesn’t have any signs of liquid water, even though it is close to our solar system. Instead, it looks to be covered with oceans of diamonds and molten lava. Everyone is familiar with 55 Cancri E, the exoplanet believed to be a diamond. Now that we have a greater understanding of the planet and its characteristics, we may say the following:
Let’s examine what might transpire if that diamond were to return home. Let’s discuss the greatest what-if:
What if the exoplanet’s spilling diamonds made their way to Earth?
What If Every Diamond on Earth Existed?
Have you ever wondered why diamonds are so costly?
It turns out that they are not merely attractive. They are also quite difficult to acquire. Even though diamonds are few on Earth, they appear to be abundant elsewhere in the universe. Consider costly jewelry and other luxury works of art. For those struggling with debt, the concept of a diamond planet may seem like a fantasy come true. Let’s get one thing straight:
This diamond planet cost 26.9 quadrillion dollars. And if you’ve just heard the term nonillion for the first time, you should know that it is indeed an unusual number, as it has 30 zeros. There are more zeros than you can count on the world’s largest salary. But how did the scientist arrive at this number? One kilogram of uncut diamonds is worth $1.5 million, and the diamond mass of 55 Cancri E is three times that of the Earth. When the mass of the 55 Cancri E and the value of rough diamonds are multiplied, the result is 29 undecillion dollars.
Now that we’ve returned to Earth, let’s compare our economic data to that of this diamond world. The gross domestic product, or GDP, measures the economic prosperity of a nation. In 2022, our GDP will be approximately 94 trillion dollars. Compared to the diamond planet, which is valued at $26.9 trillion, the disparity between our GDP and its value is incomprehensible.
Consider the disparity in this ranking. Because we would all be multimillionaires, the seven billion people on earth would no longer be concerned about money. Doesn’t it sound like a dream? Then, rouse yourself immediately. Face the facts about our economic system. We are unable to circumvent economic laws.
Unfortunately, this is the truth. Demand and supply exist. The Actual Value of A Planet of Diamonds Supply and demand is a relatively easy notion, but it may be difficult to grasp if you’re not accustomed to considering economics. In economics, supply and demand refer to the relationship between a product or service’s availability and its price. When demand for something is high, its price grows; when demand is low, its price lowers.
Let’s now apply this parallel to our own planet. Obviously, we live in a world where there are only a few diamonds on Earth. Diamonds are extremely expensive and much desired. Due to the scarcity of diamonds, their price would be extremely high. It is far more than what we currently spend on them.
The answer is affirmative, but not for the reasons you may anticipate. Consider reevaluating supply and demand. When something is in abundance, its value decreases. This is due to the fact that when something is plentiful, it becomes common, and common things are not unique. They are simply objects.
When there are ample diamonds on Earth, everyone will be able to possess one. Nobody must now pay a high price for it. What if, however, I told you that a particular nation were endowed with diamonds from the heavens? Yes! It’s a fact.
However, the real question is whether you want an asteroid to strike you. Falling Diamonds from the Sky This discovery is very fascinating since diamonds have been discovered within asteroids. These asteroids have fallen to Earth from outer space. Diamonds falling from the sky sound rather implausible.
However, this is what occurs when asteroids strike the Earth. Pressure alone will produce an effect. And this effect will result in carbon atoms combining with other elements in novel ways. Now you possess a diamond. This is precisely what occurred approximately 35 million years ago. There was once an asteroid impact crater. This crater was considered the fourth largest on Earth. Moreover, its width is approximately 100 kilometers. It is expected to contain more than a trillion carats. Consequently, this crater is currently recognized as the world’s greatest diamond field.
Which nation is blessed?
Initially, they attempted to keep it a secret. But not before the secret was revealed. These gigantic diamonds are found in Russia, in a location known as Popigai crater. Our universe is filled with marvels. But do you know what enhances the earth’s beauty? It is a lifelong treasure. It provides what we require and more. There are still a lot of natural resources and chemical compounds that support life all around us. In addition, when we look up at the night sky, the stars appear to us like sparkling diamonds. The more scientists hunt for life and objects on other planets, the clearer it seems that there is no place like home. Look in vain. Our world is the true gem.
FAQ
What is the Diamond planet called?
In the framework of known astronomical objects, “Diamonds planet” does not refer to a specific celestial body. Nonetheless, some exoplanets and celestial bodies have names that allude to a relationship with diamonds. For instance, 55 Cancri e, an exoplanet around 40 light-years away, has earned the moniker “diamond planet” because of speculations indicating that a significant portion of its composition may consist of carbon found in diamond or graphite. It’s important to remember that these names are frequently slang terms derived from speculative observations, and that scientific knowledge of these far-off planets is always changing due to advances in study and technology.
Why is the Earth called a diamond planet?
Not many people refer to Earth as the “diamond planet.” The phrase “diamond planet” is more frequently used in reference to certain exoplanets, such as 55 Cancri e, where hypotheses indicate that significant amounts of carbon may be present, possibly in the form of diamonds or graphite. In contrast, Earth is mainly known as the “Blue Planet” because of the large amount of water on its surface. It’s crucial to remember that names for celestial bodies are given according to particular traits or attributes that catch the interest of the general public and scientists.
Is 55 Cancri e real?
Yes, it’s true that 55 Cancri e is an exoplanet. Situated in the Cancer constellation and roughly 40 light-years from Earth, the 55 Cancri system is what it belongs to. 55 Cancri e was discovered in 2004 and is particularly interesting because of its peculiar features. Being a super-Earth, its mass is more than Earth’s but far less than that of Neptune or Uranus. 55 Cancri e has been dubbed the “diamond planet” since preliminary research revealed that a significant amount of its material may consist of carbon in the form of diamonds or graphite.
Did NASA find a diamond planet?
As of right now, NASA has not formally declared that a diamond planet has been found in our solar system. Rather than referring to any planet in our solar system, the term “diamond planet” is frequently used to refer to the exoplanet 55 Cancri e, which is situated in a far-off star system. Early hypotheses that suggested this exoplanet would have a significant amount of carbon in the form of diamonds or graphite brought it attention. Using telescopes and other tools, NASA and other space organizations are still investigating and studying exoplanets in order to gain a deeper understanding of the variety of planetary compositions found in the cosmos.
Is 55 Cancri e bigger than Earth?
Yes, 55 Cancrie is a lot bigger than Earth. As an exoplanet, it is categorized as a super-Earth, meaning that its mass is greater than Earth’s but lower than that of Neptune or Uranus. 55 Cancri e has a diameter of nearly twice that of Earth and an estimated mass of eight times that of Earth. 55 Cancri e has unique properties because to its bigger size and mass, which makes it a fascinating subject for study in the field of exoplanetary research. Scientists interested in learning more about the diversity of planetary formations outside of our solar system find it to be an intriguing subject due to its composition and harsh conditions, including high temperatures and possible volcanic activity.
Why is 55 Cancri e not habitable?
55 Because of a number of harsh conditions that make it unfit for life as we know it, Cancrie is regarded as inhospitable and not habitable. The intense heat on the surface is one of the primary causes. Because of its close orbit around its host star, 55 Cancri, this super-Earth generates a lot of heat. It’s estimated that temperatures at 55 Cancri e are high enough to melt metal. It is also thought that the planet does not have a significant atmosphere, which implies that there is no barrier to control temperature or sustain life. Furthermore, early hypotheses suggest that the presence of a sizable amount of carbon in the form of diamonds or graphite leads to an environment very different from what is required to support life on Earth. Any known form of life is unable to survive in 55 Cancrie due to these harsh circumstances and other considerations.
