Gold is a metal whose prices have reached the sky. Despite being so expensive, the hobby of wearing gold is not decreasing, that is, the demand for gold in the market remains the same. Due to the increasing demand for gold, its mining is also happening rapidly, despite this, the price of gold is not taking the name, but do you know that the gold that is excavated by the mines can also be made in the scientific lab.
The matter is shocking, but this is true. Scientists can make gold by using some experiments in the lab. In such a situation, do you also have a question that when gold can be made in the lab, then why is gold being extracted from the excavation of mines. Why scientists do not fulfill the needs of people by making gold in the lab. & Nbsp;
whom is gold made from?
Before knowing how to make gold in the lab, it is important to know who gold is made and what happens in it. Let me tell you, gold is a chemical element, which has 79 protons in each atomic nucleus. That is, an atomic gold atom with 79 protons is atom and adulteration of other elements is negligible. & Nbsp;
How to make gold in the lab?
To make gold in the lab, scientists have to prepare an atom with 79 protons, but it is not so easy. For this, scientists will have to separate a proton from either 80 proton mercury (mercury), or include a proton in platinum with 78 protons. However, separating or involving the proton is a difficult process. This is possible only by nuclear reaction. For this, scientists have to install nuclear reactor and also have to collect the necessary materials. & Nbsp;
Why is gold extracted from mines?
To make gold in the lab, scientists need a nuclear reaction process, for which it is mandatory to install a nuclear reactor. This is quite expensive and complex work. With this process, gold can be made, but the cost of spending it will not be compensated by selling gold. At the same time, extracting gold from mines is much easier than this and scientists have discovered such ways to extract gold, which are quite easy too cheap. & nbsp;