deoxyribose and guanine
deoxyribose and guanine
the amount of energy the flowing H+ ions have
the amount of energy the flowing H+ ions have
The number of H+ ions moving down the channel
Between H2O molecules. ( when hydrogen is covalently bonded to an electronegative atom)
deoxyribose and guanine
Molecules are held together by chemical bonds. More likely electrons that are shared between two bonded atoms which are compounds
nucleotides that are the building blocks of nucleic acids are made up of sugar, a nitrogen base and phosphate group
None of the above although if I had to pick one it is most likely to fall under the submicroscope category. Chemistry is the study of chemicals molecules and elements. All of which are microscopic in singular entities but can be large enough bonded together to be visible.
Because in some covalent bonds, the electrons forming the bond are equally as likely to be near one of the bonded nuclei as the other, while in some covalent bonds the electrons forming the bond are more likely to be one of the bonded nuclei than the other. The first instance is most purely illustrated in diatomic molecules of elements such as hydrogen, nitrogen, oxygen, and the halogens in which the two bonded atoms have exactly equal electronegativity values, while the second occurs when the bonded atoms have very different electronegativities, as in hydrogen halides.
the amount of energy the flowing H+ ions have
A covalent bond. Ionic bonds form crystals, not molecules.
the amount of energy the flowing H+ ions have
the amount of energy the flowing H+ ions have
the amount of energy the flowing H+ ions have
the amount of energy the flowing H+ ions have
the amount of energy the flowing H+ ions have