Mercury is a very toxic material and should never be handled without proper protection. If the thermometer is broken, it should be disposed of in a safe and responsible way.

Mercury is a heavy metal and will fall to the ground. If it comes into contact with your skin, it can cause serious health problems.

Yes, mercury can be released from a broken thermometer and can be poisonous if ingested.

Mercury is a heavy metal and will not be attracted to a magnet.

Mercury vapor is a heavy metal and will stay in the air for quite some time.

Mercury can be disposed of in a number of ways, depending on the level of mercury contamination. For lower levels, such as around .5 parts per million (ppm), the Environmental Protection Agency recommends flushing down the toilet or washing down the area with water. For higher levels, up to 1 ppm, the EPA recommends calling a professional.

Mercury vapor is a very light gas, so it doesn’t stick to clothes as much as heavier gases like carbon dioxide. However, if mercury vapor is breathed in, it can cause serious health problems.

About 0.1 milligrams of mercury is toxic.

Mercury can stay in the brain for weeks or even months, depending on how much was ingested and how quickly it was eliminated from the body.

Mercury can be absorbed through the skin, but it’s not very common. The amount of mercury that can be absorbed through the skin is very small, and the amount that would be harmful to a person is also very small.

Mercury is a heavy metal with a low melting point. It is found in many different forms, including elemental mercury, mercuric oxide, mercuric chloride, and mercuric sulfide. The average value for elemental mercury is about $2 per kg.

There is no definitive answer to this question as it depends on the specific application and the conditions under which it is being attempted. However, general methods for evaporating substances include heating them until they vaporize, using a vacuum or air pressure to force the vaporized substance out of a container, or using a chemical reaction to break down the substance into its component molecules.