Yes the oxygen is capable of bonding with two other molecules because of its 2- charge and two hydrogens have a 1+ charge each.
It'll form either one (if something else is bonding to the oxygen atom) or two (if you're making water, in which case you need two hydrogen atoms).
Although both molecules are polar and have similar masses, the O-H bond in water is highly polar, producing a dipole movement in the overall molecule towards O. The S-H is also polar and produces a dipole movement towards S, but it is not as strong a separation of charge as that produced by O-H. This results in H20 molecules being more strongly attracted to each other by Hydrogen bonding, than H2S molecules which are attracted to each other due to only dipole-dipole attraction. Stronger attraction between molecules means it takes more energy to separate them into the gas phase, making it have a higher boiling point.
H, standing for hydrogen, is a single atom containing 1 proton. A molecule is a unit of matter which is made by bonding atoms, so "H" is not a molecule.
solid with hydrogen bonds making it less dense than its liquid form
making your voice squeaky
trueYes, they are. Covalent bonds are the strongest type of intramolecular bond, and hydrogen bonds are the strongest type of intermolecular bond. However, intramolecular bonds (within molecules or compounds) are ALWAYS stronger that intermolecular bonds (between molecules), so covalent bonds are much stronger that hydrogen bonds.
capable of making mistakes = fallible
this is bcz hydrogen bonds give specificity to base pairing, with cystine bonding to guanine, and adenine bonding to thymine, it provides the basis for semi-conservative replication making it a self automated process, for more detail go to semi conservative replication on google.
It'll form either one (if something else is bonding to the oxygen atom) or two (if you're making water, in which case you need two hydrogen atoms).
Words for "making capable" include:enablingfacilitatingallowing
Although both molecules are polar and have similar masses, the O-H bond in water is highly polar, producing a dipole movement in the overall molecule towards O. The S-H is also polar and produces a dipole movement towards S, but it is not as strong a separation of charge as that produced by O-H. This results in H20 molecules being more strongly attracted to each other by Hydrogen bonding, than H2S molecules which are attracted to each other due to only dipole-dipole attraction. Stronger attraction between molecules means it takes more energy to separate them into the gas phase, making it have a higher boiling point.
H, standing for hydrogen, is a single atom containing 1 proton. A molecule is a unit of matter which is made by bonding atoms, so "H" is not a molecule.
The bases of the various amino acids are hydrogen bonded in the secondary structure of protein synthesis. Alpha helices and beta sheets are formed. This is the step before the various R groups start bonding and folding the protein into a globular shape in the tertiary structure.
Oxygen (O) is more electronegative than sulfur (S). This means that H2O more polar than H2S. This means that the forces of attraction between H2O molecules is grater than that in H2S molecules, making it harder to separate them from one another to turn it into a gas.
Yes
mix water with hydrogen duuuuh!
By burning the hydrogen and making water.