[Radon_is_found_in_all_kinds_of_rocks_everywhere]
Radon exist in rocks containing uranium or thorium.
Radon is present in uranium and thorium minerals but also in all rocks and minerals containing traces of uranium or thorium.
No, it's an element.
Radon is a gas at room temperature, and quite a bit below it, too. A link can be found below.
Radon presence in indoor air is liked to 10% of lung cancer cases in North America.
In a geographical sense, just about everywhere. It is more common in certain areas than others. It's considerably heavier than air, so radon escaping from the ground into the atmosphere tends to collect in low places, particularly those which are enclosed and have little air circulation. Typically in a house the highest concentration of radon will be found in the basement.
Radon is a gas, possible to be in buildings. Radon 222 is an isotope of radon, the most common.
Radon is a non-corrosive gas.
Uranium and thorium minerals contain radon.
Radium itself continues to decay into radon, bismuth, polonium, lead, or thallium.
Radon is a gas at room temperature, and quite a bit below it, too. A link can be found below.
Radon presence in indoor air is liked to 10% of lung cancer cases in North America.
In a geographical sense, just about everywhere. It is more common in certain areas than others. It's considerably heavier than air, so radon escaping from the ground into the atmosphere tends to collect in low places, particularly those which are enclosed and have little air circulation. Typically in a house the highest concentration of radon will be found in the basement.
There are no elements in Radon, Radon is an element in its own right.
Radon is a gas, possible to be in buildings. Radon 222 is an isotope of radon, the most common.
Radon.
Radon is a non-corrosive gas.
Radon is NOT reactive.
No. Radon is odorless.
Although the atomic mass number of radon is often given as 220, there are 39 isotopes and isomers of radon. The common isomers of radon are : radon-219, radon-220, and radon-222.