well it diffect ..close your eye and think of a hydrogen why aint you closeing your eye .?? but anyway let me tell u da answer since you dont want to close your eye the answer is ... the answer .. the answer .. your my bestfriend .. hahahah chu you
The cohesiveness of water molecules is determined by hydrogen bonds. These bonds form between the hydrogen atoms of one water molecule and the oxygen atoms of neighboring water molecules, creating a strong attraction that allows water molecules to stick together.
Strong hydrogen bonds.
Ice particles are held together by strong hydrogen bonds. Water molecules in ice lattice structures are connected by these hydrogen bonds, which are bonds between the hydrogen atoms of one water molecule and the oxygen atoms of neighboring water molecules. This bond network gives ice its solid and stable structure.
Water molecules are bonded together using hydrogen bonds. Hydrogen bonds occur when positive and negative charged parts of the molecules are attracted to the opposite charge in other molecules.
Water molecules are held together by hydrogen bond which is formed between hydrogen of one molecule and oxygen of other molecule. H2O-----H-O-H
Hydrogen bonds are weak bonds that form between a hydrogen atom and a highly electronegative atom (such as oxygen or nitrogen) in a different molecule. While individually weak, hydrogen bonds collectively play important roles in stabilizing large molecules like proteins and nucleic acids.
The cohesiveness of water molecules is determined by hydrogen bonds. These bonds form between the hydrogen atoms of one water molecule and the oxygen atoms of neighboring water molecules, creating a strong attraction that allows water molecules to stick together.
Strong hydrogen bonds.
Hydrogen bonds hold together molecules such as DNA strands, protein secondary structures like alpha helices and beta sheets, and between water molecules. These bonds are important for maintaining the structure and function of these biological molecules.
Ice particles are held together by strong hydrogen bonds. Water molecules in ice lattice structures are connected by these hydrogen bonds, which are bonds between the hydrogen atoms of one water molecule and the oxygen atoms of neighboring water molecules. This bond network gives ice its solid and stable structure.
Hydrogen bonds hold cellulose molecules together in bundles large enough to form fibers..
Hydrogen bonds are weak attractions between a hydrogen atom and a highly electronegative atom like oxygen or nitrogen. In biological molecules, hydrogen bonds help hold the molecules together and contribute to their stability by forming strong connections between different parts of the molecule. This helps maintain the structure and function of biological molecules like proteins and DNA.
Water molecules are bonded together using hydrogen bonds. Hydrogen bonds occur when positive and negative charged parts of the molecules are attracted to the opposite charge in other molecules.
Hydrogen.
Covalent bonds involve the sharing of electrons between atoms, creating strong connections within molecules. Hydrogen bonds are weaker interactions between molecules, where hydrogen atoms are attracted to electronegative atoms like oxygen or nitrogen. Covalent bonds are stronger and hold atoms together within a molecule, while hydrogen bonds are weaker and contribute to interactions between molecules.
Hydrogen bonds hold separate water molecules together. This type of bond forms between the partially positive hydrogen atom of one water molecule and the partially negative oxygen atom of another water molecule.
Yes, water molecules are held together by hydrogen bonds.