osmium
No, lead is a single element on the periodic table with the symbol Pb and atomic number 82. It is a heavy metal that is known for its toxic properties.
It is also known as heavy hydrogen. Its nucleus is called a deuteron. The relative isotopic mass of the element is 2.01410178 u. Its a stable element and has a natural abundance of 0.015%.
The symbol for borilium is B, not to be mistaken with the element Boron, whose symbol is B as well. But there is no known element with the symbol "borilium".
The element is carbon. Two well-known forms of carbon are graphite and diamond. Graphite is used in pencils and as a lubricant due to its layered structure, while diamond is renowned for its hardness and brilliance, making it desirable for jewelry and cutting tools. Both forms illustrate carbon's versatility and ability to exist in different structural arrangements.
It is the lightest element.
Arsenic
No, lead is a single element on the periodic table with the symbol Pb and atomic number 82. It is a heavy metal that is known for its toxic properties.
You can't change an element into another element, but the heaviest metal is tungsten.
It is also known as heavy hydrogen. Its nucleus is called a deuteron. The relative isotopic mass of the element is 2.01410178 u. Its a stable element and has a natural abundance of 0.015%.
If you mean what is cord 124 ? It an electrical plugs it well known for it heavy duty
The name of the element einsteinium is derived from the name of the great well-known physicist of Jewish origin - Albert Einstein.
The symbol for borilium is B, not to be mistaken with the element Boron, whose symbol is B as well. But there is no known element with the symbol "borilium".
The name curium is derived from the name of the well known family of scientists - Curie.
tungsten
Lead
Gold is a heavy element commonly used in coins and jewelry due to its durability, malleability, and resistance to tarnishing.
In physics, fission is the process in which a heavy, unstable element is split into two lighter elements by bombarding it with a small particle. Some of the energy that was binding the element's nucleus together is then released, along with a third, tiny particle that is released as well. The tiny particle then collides with another of the heavy elements, causing it to split as well, emitting another particle which collides with another heavy element, and so on. This is the chain reaction that allows for sustainable nuclear power generation, in which the reaction is controlled, or the detonation of nuclear weapons, in which the reaction is uncontrolled.