In the world of chemistry every atom aspires to have a full outer electron shell.
If you look at the table of elements each group (or column) has the same amount of valence electrons (electrons in their outer shell), you may notice the group at the end called the Noble Gasses.
These gasses include helium and have a full outer shell. This means that all atoms aspire to be like noble gasses, (have a full outer shell), to do this they bond with other atoms in order to fill their outer shell.
bonding methods include covalent, ionic, and covalent lattices.
Hydrogen is actually a very important element as it bonds numerously with vast amounts of other element/ atoms. So in terms of bonding it is important. However it is an unidealistic gas if you are trying to isolate it as it is prone to bonding, and will do so with many other gasses, atoms, elements, and molecules. Conversely helium is an "ideal" gas as it will not react with any other atoms under natural circumstances.
Continuing on with the importance of HYDROGEN, many of the cycles in the natural world (water, nitrogen and carbon cycle) all at some stage involve hydrogen so therefore without it these cycles would be greatly altered and life on this planet would be very different.
Hopefully this answers your question.
And to others feel free to edit and correct as I am only a grade 11 chemistry student.
For any further help you can email me at CallumFaulkner@hotmail.com!
Helium has more mass than hydrogen. Helium is composed of two protons and two neutrons, while hydrogen is a single proton.
Hydrogen is dangerous than Helium because Hydrogen is a stronger gas than Helium.
Helium and hydrogen show less deviation from ideal behavior because they are both light gases with weak intermolecular forces. These weak forces result in minimal interactions between gas particles, which closely resembles the assumptions of an ideal gas behavior. Additionally, the small size and simplicity of helium and hydrogen molecules make them less likely to experience significant deviations under normal conditions.
Hydrogen gas is liquefied first than helium gas because hydrogen has a higher critical temperature and pressure than helium. This means that hydrogen can be liquefied at higher temperatures and pressures compared to helium. Helium requires lower temperatures and pressures to be liquefied, making it more challenging to achieve compared to hydrogen.
The gas is helium. Helium is inert and has 2 protons, while hydrogen has 1 proton.
Helium has more mass than hydrogen. Helium is composed of two protons and two neutrons, while hydrogen is a single proton.
Hydrogen is dangerous than Helium because Hydrogen is a stronger gas than Helium.
Hydrogen has more lifting power than helium because it is lighter. This means that a given volume of hydrogen can lift more weight than the same volume of helium.
Helium and hydrogen show less deviation from ideal behavior because they are both light gases with weak intermolecular forces. These weak forces result in minimal interactions between gas particles, which closely resembles the assumptions of an ideal gas behavior. Additionally, the small size and simplicity of helium and hydrogen molecules make them less likely to experience significant deviations under normal conditions.
Hydrogen gas is liquefied first than helium gas because hydrogen has a higher critical temperature and pressure than helium. This means that hydrogen can be liquefied at higher temperatures and pressures compared to helium. Helium requires lower temperatures and pressures to be liquefied, making it more challenging to achieve compared to hydrogen.
The atomic number of helium is one more than that of hydrogen. In both the elements, the electrons are filled in the 1s orbitals. Hydrogen has one electron, helium has two.
The gas is helium. Helium is inert and has 2 protons, while hydrogen has 1 proton.
Hydrogen is lighter than helium. So hydrogen balloon will float better than helium.
Using hydrogen gas in a blimp is advantageous because hydrogen is lighter than helium, providing more lift and better fuel efficiency. However, hydrogen is flammable, which poses a safety risk compared to the non-flammable helium. Additionally, hydrogen is more readily available and cheaper to produce than helium.
Helium has more emission lines than hydrogen because it has more electrons and energy levels, leading to more possible transitions between these levels and the emission of different wavelengths of light.
No, helium is almost 4 times as heavy as hydrogen.
Helium is non-flammable, making it safer than hydrogen which is highly flammable. This reduces the risk of fire accidents when using helium to lift blimps. Additionally, helium is more abundant and easy to obtain compared to hydrogen, making it a more practical choice for lifting gas.