SafekipediaHydrogen
Adapted from Wikipedia · Adventurer experience
Hydrogen is a chemical element with the symbol H and atomic number 1. It is the lightest and most abundant element in the universe, making up about 75% of all normal matter. You can find hydrogen in stars like the Sun, in water, and in many organic compounds.
Under normal conditions, hydrogen exists as a gas made of tiny molecules called dihydrogen, written as H2. This gas is colorless, has no smell, and isn’t poisonous, but it can catch fire very easily. Scientists first made hydrogen gas in the 1700s by mixing certain acids with metals. A scientist named Henry Cavendish discovered that when hydrogen burns, it makes water, which is why we call it “water-former.”
Hydrogen plays an important role in many chemical reactions and helps form many compounds, including water. It is very useful in industries, where it helps make fertilizers and process fuels. Recently, scientists have been exploring ways to use hydrogen in fuel cells to create clean energy.
Properties
Hydrogen is a simple and interesting element. It is the lightest element we know, and it makes up most of the matter in the universe. You can find it as a gas made of tiny molecules, each with two hydrogen atoms stuck together. We call this dihydrogen or just hydrogen gas.
Hydrogen atoms have electrons that can move between different energy levels. When they jump from a higher level to a lower one, they give off light. This is how we get the beautiful colors in the night sky from stars! Hydrogen comes in a few different forms, called isotopes. The most common one, called protium, has just a single proton. Another one, deuterium, has a proton and a neutron, and it’s used in special types of water called heavy water. There’s also tritium, which is radioactive and glows in the dark.
| Temperature (K) | Density (kg/m3) | Specific heat (kJ/kg K) | Dynamic viscosity (kg/m s) | Kinematic viscosity (m2/s) | Thermal conductivity (W/m K) | Thermal diffusivity (m2/s) | Prandtl Number |
|---|---|---|---|---|---|---|---|
| 100 | 0.24255 | 11.23 | 4.21E-06 | 1.74E-05 | 6.70E-02 | 2.46E-05 | 0.707 |
| 150 | 0.16371 | 12.602 | 5.60E-06 | 3.42E-05 | 0.0981 | 4.75E-05 | 0.718 |
| 200 | 0.1227 | 13.54 | 6.81E-06 | 5.55E-05 | 0.1282 | 7.72E-05 | 0.719 |
| 250 | 0.09819 | 14.059 | 7.92E-06 | 8.06E-05 | 0.1561 | 1.13E-04 | 0.713 |
| 300 | 0.08185 | 14.314 | 8.96E-06 | 1.10E-04 | 0.182 | 1.55E-04 | 0.706 |
| 350 | 0.07016 | 14.436 | 9.95E-06 | 1.42E-04 | 0.206 | 2.03E-04 | 0.697 |
| 400 | 0.06135 | 14.491 | 1.09E-05 | 1.77E-04 | 0.228 | 2.57E-04 | 0.69 |
| 450 | 0.05462 | 14.499 | 1.18E-05 | 2.16E-04 | 0.251 | 3.16E-04 | 0.682 |
| 500 | 0.04918 | 14.507 | 1.26E-05 | 2.57E-04 | 0.272 | 3.82E-04 | 0.675 |
| 550 | 0.04469 | 14.532 | 1.35E-05 | 3.02E-04 | 0.292 | 4.52E-04 | 0.668 |
| 600 | 0.04085 | 14.537 | 1.43E-05 | 3.50E-04 | 0.315 | 5.31E-04 | 0.664 |
| 700 | 0.03492 | 14.574 | 1.59E-05 | 4.55E-04 | 0.351 | 6.90E-04 | 0.659 |
| 800 | 0.0306 | 14.675 | 1.74E-05 | 5.69E-04 | 0.384 | 8.56E-04 | 0.664 |
| 900 | 0.02723 | 14.821 | 1.88E-05 | 6.90E-04 | 0.412 | 1.02E-03 | 0.676 |
| 1000 | 0.02424 | 14.99 | 2.01E-05 | 8.30E-04 | 0.448 | 1.23E-03 | 0.673 |
| 1100 | 0.02204 | 15.17 | 2.13E-05 | 9.66E-04 | 0.488 | 1.46E-03 | 0.662 |
| 1200 | 0.0202 | 15.37 | 2.26E-05 | 1.12E-03 | 0.528 | 1.70E-03 | 0.659 |
| 1300 | 0.01865 | 15.59 | 2.39E-05 | 1.28E-03 | 0.568 | 1.96E-03 | 0.655 |
| 1400 | 0.01732 | 15.81 | 2.51E-05 | 1.45E-03 | 0.61 | 2.23E-03 | 0.65 |
| 1500 | 0.01616 | 16.02 | 2.63E-05 | 1.63E-03 | 0.655 | 2.53E-03 | 0.643 |
| 1600 | 0.0152 | 16.28 | 2.74E-05 | 1.80E-03 | 0.697 | 2.82E-03 | 0.639 |
| 1700 | 0.0143 | 16.58 | 2.85E-05 | 1.99E-03 | 0.742 | 3.13E-03 | 0.637 |
| 1800 | 0.0135 | 16.96 | 2.96E-05 | 2.19E-03 | 0.786 | 3.44E-03 | 0.639 |
| 1900 | 0.0128 | 17.49 | 3.07E-05 | 2.40E-03 | 0.835 | 3.73E-03 | 0.643 |
| 2000 | 0.0121 | 18.25 | 3.18E-05 | 2.63E-03 | 0.878 | 3.98E-03 | 0.661 |
History
Main article: Timeline of hydrogen technologies
In 1671, Irish scientist Robert Boyle found that mixing iron with certain acids makes a gas we now call hydrogen. Later, in 1766, Henry Cavendish learned that this gas is different from others and that it makes water when it burns. By 1783, Antoine Lavoisier knew this gas was an element and named it hydrogen.
In the 1800s, people started using hydrogen in balloons and early engines. It was turned into a liquid for the first time in 1898. In the 1900s, hydrogen helped scientists understand quantum mechanics because of its simple structure. Hydrogen was used to lift airships because it is lighter than air. The famous airship Hindenburg used hydrogen, but it caught fire in 1937. After that, hydrogen was no longer used for passenger airships.
Chemistry
Hydrogen is a simple chemical element that is very common in the universe. It can form many different compounds and reactions.
When hydrogen bonds with elements like fluorine, oxygen, or nitrogen, it can create special bonds called hydrogen bonds. These bonds are important for the structure of many molecules in living things. In water and other liquids, hydrogen helps in chemical reactions by allowing the transfer of protons. This affects how acidic or basic a solution is.
Occurrence
Hydrogen is the most common chemical element in the universe. It makes up about 75% of all normal matter. It was created just after the Big Bang and is an important part of stars and gas giant planets.
On Earth, hydrogen is mainly found in things like water and hydrocarbons. There is only a very small amount of pure hydrogen gas in the air. Recently, scientists found large underground stores of hydrogen gas in places such as Mali, France, and Australia.
Production and storage
Most of the hydrogen we use today comes from fossil fuels. There are three main ways to make hydrogen in factories: steam reforming, partial oxidation of hydrocarbons, and water electrolysis.
Steam reforming is the most common way to make hydrogen. In this process, we mix water vapor with methane at very high temperatures. This makes hydrogen and carbon monoxide. This method creates a lot of carbon dioxide, which is not good for the environment.
Water electrolysis is another way to make hydrogen. Here, we use electricity to split water into hydrogen and oxygen. If the electricity comes from renewable sources like solar or wind, the hydrogen is called “green hydrogen.” This method is still more expensive than making hydrogen from methane.
There are also natural ways that hydrogen is made, like by certain bacteria and through geological processes. In labs, scientists can make hydrogen by using electricity to split water or by using metals that react with acids.
Storing hydrogen is tricky because it doesn’t dissolve well in most materials and is hard to keep in a compact form. Scientists are looking at special materials that can hold hydrogen, but there are still many challenges to solve.
Applications
See also: Hydrogen economy
Hydrogen has many important uses. In the petrochemical industry, it helps clean fuels. It is also used to make ammonia, a key ingredient in fertilizers that help plants grow.
Hydrogen can be a clean energy source. It can power special batteries called fuel cells, which only make water. It can also be burned to create heat. Because it is clean, hydrogen is being studied to help make industries like steel and glass production better for the environment. It can also be used in rockets and space travel as a special fuel.
Safety and precautions
Hydrogen can be dangerous because it reacts with metals, which might cause leaks. Even without sparks or flames, hydrogen can catch fire on its own when it leaks from high-pressure containers.
Hydrogen is very flammable and can catch fire even when mixed with only a little air. Its flames are often hard to see, so people might not notice a fire until it’s too late. While hydrogen isn’t poisonous, it can push out oxygen in a room, making it hard to breathe if there isn’t enough fresh air.
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