The ratio of radiocarbon to stable carbon atoms in the atmosphere has varied in the past.This is because the amount and strength of cosmic radiation entering the earth's atmosphere has varied over time.Sales, revenue and prices, power plants, fuel use, stocks, generation, trade, demand & emissions.Energy use in homes, commercial buildings, manufacturing, and transportation.Uranium fuel, nuclear reactors, generation, spent fuel.Comprehensive data summaries, comparisons, analysis, and projections integrated across all energy sources.The following article is primarily based on a discussion of radiocarbon dating found in The Biblical Chronologist Volume 5, Number 1. Radiocarbon dating is based on a few relatively simple principles. The vast majority of these are C (pronounced "c twelve"), the stable isotope of carbon.However, cosmic radiation constantly collides with atoms in the upper atmosphere.
The most commonly found compounds of carbon are carbon monoxide (CO) and carbon dioxide (CO).Carbon has been known to man since time immemorial, and its uses are so vast and varied that to think of regular human life without the presence of carbon is next to impossible.Here's a look at some of the well-known uses of this precious element.(This, in turn, is caused by variations in the magnetic fields of the earth and sun, for example.) Although the ratio of radiocarbon to stable carbon in the atmosphere has varied over time, it is quite uniform around the globe at any given time because the atmosphere mixes very quickly and constantly.Plants obtain all their carbon atoms from the atmosphere.Chemically pure carbon can be prepared by termic decomposition of sugar (sucrose) in absence of air.The physical and chemical properties of carbon depend on the crystalline structure of the element.The uses of carbon, which is a non-metallic element, can be understood better once the properties of the element are clear.Carbon is one of the most stable elements known to man.Part of the result of these collisions is the production of radiocarbon (C, pronounced "c fourteen"), carbon atoms which are chemically the same as stable carbon, but have two extra neutrons.Radiocarbon is not stable; over time radiocarbon atoms decay into nitrogen atoms.