There is no way a deposit on another planet could be profitable right now. Surface gold will only be found on stony worlds. Mercury, Venus, Earth, and Mars are the planets. Gold is formed in Supernovae and is part of the debris that formed the rocky planets.
Gold has been found on other planets but it is always in the form of meteorites. There is no free-standing gold on any of the other planets.
The best chance for finding gold on another planet would be if a meteorite were to land on one of them. The impact would heat the rock up, causing any gold in it to melt away - just like what happens when a space rock hits Earth! The impact would also create a crater, which could hold some water as well as mineral riches.
However, since all the planets except our own are covered with gas, they're not suitable places for life as we know it. The temperatures on most of them are too high or too low, and their atmospheres contain toxic chemicals that would kill any organisms that might survive the crash.
Mercury is the smallest of the planets in our solar system, and the first to orbit it every 88 days. It has a dense atmosphere made of 96.5% hydrogen and 3.5% helium that can reach up to 10 km (6 miles) in depth.
It's really improbable. Gold is created in very energetic events such as supernovae, which include a large amount of stuff. On a lower energy chemical scale, gold bonds to iron very effectively (which is present in the same events), making a gold-only planet extremely implausible.
That being said, there are planets in our galaxy that are mostly made of gold. The planet Mercury is almost entirely made of gold, and Earth has about 75 percent gold.
The rest of Earth is made of oxygen and silicon, with a little bit of calcium and aluminum and some other things. It's just that gold is much more abundant. On average, across the galaxy, you might be able to find a few planets that are mostly gold, but none that are exclusively made of it.
Planets are made of materials that fall onto them from space or that they capture as they orbit their star. Some of these materials are rich in elements like gold, but most are not. A planet made of gold would be very rare. A planet made of silver may be common, but it wouldn't be unique.
Even if you could make a planet out of any material you want, it wouldn't last long because all planets get bombarded by atoms from space called "ions". These ions hit the planet every day and cause earthquakes and other damage.
In theory, we can generate gold by simply combining 79 protons (and enough neutrons to make the nucleus stable). Even better, we can manufacture gold by removing one proton from mercury (which has 80) or adding one proton to platinum (which has 78). In fact, this is how most of our gold is made today; however, it requires very high temperatures and pressures, so instead they use a process called "mercury enrichment" which is described below.
All chemical elements are made of atoms with similar structures. Gold has the same basic structure as mercury does, so if we put them together they will combine to form something new. In fact, when gold was first discovered in 1730 it was found inside pots full of mercury.
People have known about the relationship between gold and mercury for hundreds of years but it wasn't until the late 1800's that anyone realized they could be separated from each other. By then, both metals had been used in large quantities as money for many years so they were in demand. Also, gold is quite rarer than mercury, so people wanted to know how to extract it from its ore using only chemicals that were available at the time.
The first person to figure out how to do this was a chemist named Paul Caufield who published his findings in 1848.
Gold is typically found in the earth's crust among rock and granite. Gold is exceedingly irregular and unrefined in its natural condition, as opposed to how it is usually viewed in its final state. In fact, the only place on the planet where you are likely to find much gold is right here in California!
The most common form of gold is gold bullion. It is the purest form of the metal and includes any object with a specific weight value of gold. For example, one kilo (2.2 pounds) of gold = 1 carat (200 milligrams). One carat is the standard unit used to measure purity of gold. Objects that are not gold but instead contain gold are called gold-containing objects. Examples include jewelry, artwork, and scientific instruments.
People have been mining for gold since at least 500 B.C., if not longer. At that time, all gold was valued equally. Over time, gold's value increased as more was discovered about it. By our current knowledge, only certain types of rocks contain significant amounts of gold. Most mines use some type of technology to test for gold before they start digging holes in search of it.
Mining for gold can be very harmful to the environment because it uses large amounts of energy and causes many problems for people who live near these facilities.
With the development of nuclear technology, this technique has just become a reality. Because mercury is very simple to convert into gold, it will be utilized as the beginning ingredient. Other elements can also be used instead of mercury. The gold product will be identical to the natural gold.
In theory, any element can be converted into gold using this process. In fact, there are several elements that are more valuable than mercury that can be extracted from minerals or sold by mining companies. These include silver, copper, zinc, iron, platinum, and uranium.
Mercury is an essential element for humans and other living organisms. It is used in medicine, industry, and science. However, excessive exposure to mercury can be harmful. It can cause brain damage, mental retardation, heart disease, cancer, and death.
To prevent contamination of our environment by mercury, only certified practitioners should perform mercury removal procedures. If you have done so yourself, make sure to properly dispose of your mercury waste.