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Does Glucose has carbon atoms?
It is dependent on what happens to the Hydrogen atoms.
Distance between hydrogen to hydrogen atom in methane molecules?
In a methane molecule, the distance between the hydrogen atoms is approximately 1.09 angstroms. This distance is determined by the molecular structure and the bond length between the hydrogen and carbon atoms in methane.
What molecules listed can form hydrogen bonds hydrogen ammonia hydrochloric acid or hydrofluoric?
Ammonia can form hydrogen bonds due to its ability to donate a hydrogen atom and act as a hydrogen bond acceptor. Hydrochloric acid and hydrofluoric acid cannot form hydrogen bonds as they lack hydrogen atoms bound to electronegative atoms like nitrogen, oxygen, or fluorine.
How many hydrogen atoms does caffeine has?
To answer your question on how many hydrogen atoms are there in caffeine, the scientific answer would be 10 atoms of hydrogen.
How many hydrogen atoms makes up a hydrogen molecule?
There are two atoms of Hydrogen in the molecule.
Hydrogen bond length will NOT be?
dependent on donor and acceptor atoms
Hydrogen bond length will NOT be 1 independent of the nature of donor and acceptor atoms 2 dependent on donor and acceptor atoms 3 dependent on the solvent in which the molecule is dissolved 4?
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The most abundant acceptor for hydrogen released in the Krebs cycle?
The most abundant acceptor for hydrogen released in the Krebs cycle is NAD+ (nicotinamide adenine dinucleotide). NAD+ acts as a coenzyme that carries the hydrogen atoms and electrons to the electron transport chain for ATP synthesis.
Does CCl2F2 have hydrogen bond?
No, CCl2F2 (carbon tetrachloride) does not have hydrogen bonds because it does not contain hydrogen atoms directly bonded to highly electronegative atoms like oxygen, nitrogen, or fluorine, which are necessary for hydrogen bonding to occur. Carbon tetrachloride only has polar covalent bonds due to the differences in electronegativity between carbon and chlorine or fluorine atoms.
During glycolysis NADH is formed when hydrogen atoms are transferred to an electron acceptor called?
NAD+ (Nicotinamide adenine dinucleotide) gains two hydrogen atoms and two electrons to form NADH during glycolysis. NAD+ acts as an electron carrier, accepting the hydrogen atoms and becoming reduced to form NADH.
What are the light dependent products?
nadph
Does CH3NH2 form a hydrogen bond?
Yes it has hydrogen bonding because the Nitrogen has lone pairs and it is bonded to a Hydrogen atom.
Can a ketone hydrogen bond with water?
Yes, ketones can participate in hydrogen bonding with water. The oxygen atom in the ketone functional group is electronegative and can act as a hydrogen bond acceptor, forming hydrogen bonds with the hydrogen atoms in water molecules.
What is the comparison between a hydrogen and covalent bond?
Covalent bonds are generally irreversible once formed. They occur when two atoms share a pair of electrons between them. Hydrogen bonds aren't really 'bonds' but are more interactions. Of the two atoms involved in hydrogen bonding, one is highly electronegative (such as oxygen or nitrogen) which is called the Hydrogen Bond Acceptor, and the other is a hydrogen atom attached to an electronegative atom (-OH, -NH2, -SH). This hydrogen is the Hydrogen Bond Donor. This hydrogen is very positive due to being bonded to a electronegative atom. The large different in partial charges between the hydrogen bond donor and the hydrogen bond acceptor leads to them interaction by weak electrostatic attraction.
Does Glucose has carbon atoms?
It is dependent on what happens to the Hydrogen atoms.
Bond length in Hydrogen sulphide?
The bond length in hydrogen sulfide (H2S) is approximately 1.34 angstroms. This is the average distance between the hydrogen and sulfur atoms in the molecule. The bond length can vary slightly depending on the specific conditions.
How many water bonds can asparagine form?
Asparagine can form three hydrogen bonds due to its polar amide side chain. The amide group contains a nitrogen atom that can act as a hydrogen bond acceptor, while the attached carbonyl oxygen can act as another acceptor, and the hydrogen atoms on the nitrogen can act as a donor. Thus, in a suitable environment, asparagine can effectively form multiple hydrogen bonds with water or other polar molecules.
