yes it does. the chemical behavior of a radioactive isotope is essentially the same as that of the stable isotopes of an element. When you have the addition of a small quanity of radioactive isotope, it becomes a tracer, which traces molecular changes. (look up the Melvin Calvin experiment for more help)
Carbon is neither explosive nor radioactive. Carbon is a non-metal element that is essential for life and is commonly found in various forms such as graphite and diamond. It is not inherently explosive or radioactive.
Atoms with stable nuclei are least likely to be radioactive. Typically, atoms with an even number of protons and neutrons are more stable and less likely to undergo radioactive decay. This includes elements such as carbon-12, oxygen-16, and nitrogen-14.
No, niobium is not radioactive. It is a stable element with no natural radioactive isotopes.
first of all, atoms are not elements. they are microscopic little organisms in which make up the earth. second, next i believe comes protons, electrons, neutrons, and so on, until something is in the center which science hasn't even discovered yet, but its the answer to the world i believe.
Graphite, a form of carbon, burns in oxygen to give carbon dioxide.
Carbon is neither explosive nor radioactive. Carbon is a non-metal element that is essential for life and is commonly found in various forms such as graphite and diamond. It is not inherently explosive or radioactive.
Atoms with stable nuclei are least likely to be radioactive. Typically, atoms with an even number of protons and neutrons are more stable and less likely to undergo radioactive decay. This includes elements such as carbon-12, oxygen-16, and nitrogen-14.
Radioactive substances are the things that put off radiation. These could be radioactive waste, or even radioactive materials not yet used.
There is a lot of radioactivity in nature, and some radioactive things are commonly used, even to the point of being required by law for human safety. Granite is radioactive because of the thorium in it. Many other rocks are radioactive. Cosmic rays bring radioactivity from outer space to all parts of the earth. They reach the ground sometimes, but even when they don't, the radioactive carbon-14 and tritium they produce do, along with other radioactive materials. Nearly 0.016% of all potassium is radioactive. This is not much, but it cannot be separated out. We all need the potassium to survive, even though tiny bits of it are radioactive. In order to ban radioactive materials completely, it would be necessary to ban food. All human beings are radioactive from the potassium, the carbon-14, and other natural isotopes; this includes all local politicians. Synthetic radioactive materials are used for diagnosis and treatment of disease. They are used in smoke detectors. Baning radioactive materials would be unhealthy and even make legally require safety equiment illegal. A wise antinuclear activist takes the position that we probably have all the radioactivity we could ever have use for already and do not need any more.
Diamond is chemically inert and does not react with air, even at high temperatures. This is due to its strong carbon-carbon bonds, which make it highly stable.
The half-life of most radioactive isotopes ranges from fractions of a second to billions of years. Some common radioactive isotopes, like carbon-14 and uranium-238, have half-lives of thousands to millions of years, while others, like iodine-131, have half-lives of only days or even seconds.
Any of a variety of elements might do for this, including thorium and uranium, but even potassium has an important radioactive isotope in it.
Teflon isn't especially "tough"; it's actually fairly weak mechanically because it doesn't stick to anything very well, not even itself. It is very chemically resistant, but that's because the carbon-fluorine bonds are very strong and has nothing to do with the length of the carbon chain.
it can kill the earth and even us if there is to much
No, pyrite is not radioactive. Pyrite is a naturally occurring mineral that is composed of iron and sulfur, and its chemical composition does not include radioactive elements.
Water (H2O), carbon dioxide (CO2), sodium chloride (NaCl), and glucose (C6H12O6) are examples of compounds in science. These compounds are formed when two or more elements chemically combine in specific ratios.
Carbon exists in various forms in the environment, including in the atmosphere as carbon dioxide, in living organisms as organic compounds, in oceans as dissolved carbon, and in Earth's crust as minerals such as limestone and graphite.