Hyposulphuric acid has the formula H2S2O4. The structure has two singly bonded S atoms with a doubly bonded O atom on each side, one on top, one on bottom. On the other sides, there is a singly bonded hydroxyl group.
Hydrogen sulphide, H2S, is a colorless and poisonous flammable gas.
This bonding is done in the secondary structure of the protein.
Two examples of molecules that depend on hydrogen bonding are water and DNA. In water, hydrogen bonding between water molecules gives it its unique properties like cohesion and surface tension. In DNA, hydrogen bonds between complementary base pairs hold the double helix structure together, allowing genetic information to be stored and replicated accurately.
The primary structure of a polypeptide chain, consisting of a sequence of amino acids, is primarily responsible for the helical structure of a polypeptide chain. In particular, the recurring hydrogen bonding between the carbonyl oxygen of one residue and the amide hydrogen of another residue stabilizes the helical conformation, leading to the formation of an alpha helix.
I don't get the question, but it won't work if its hydrogen bonds are broken.
No.
No. Hydrogen sulphide is covalent.
There are two atoms.Formula for hydrogen sulphide is H2S.
Hydrogen bonding occurs between hydrogen atoms and a highly electronegative atom like oxygen, nitrogen, or fluorine. In hydrogen sulfide (H2S), sulfur is less electronegative than oxygen, so the hydrogen bonding is weaker and not significant enough to cause hydrogen bonding in H2S.
Hydrogen sulphide (H2S) is a gas at room temperature.
Hydrogen sulphide explodes when it is mixed with oxygen.
Hydrogen sulphide, H2S, is a colorless and poisonous flammable gas.
hydrogen bonding, electrostatic attraction, hydrophili-hydrophobic
There is no difference between hydrogen sulfide and hydrogen sulphide. The term "sulfide" and "sulphide" both refer to the chemical compound H2S, also known as hydrogen sulfide. The difference in spelling is simply a matter of regional or historical variation.
George A. Jeffrey has written: 'Hydrogen bonding in biological structures' -- subject(s): Structure, Hydrogen bonding, Biopolymers, Biomolecules
Water is fluid due to its molecular structure and the presence of hydrogen bonding. The hydrogen bonds between water molecules allow them to slip past each other easily, giving water its fluid properties.
Complex crystal structure and hydrogen bonding