The point group symmetry of the water molecule (H₂O) is C₂v. This classification reflects the molecule's symmetry elements: it has a two-fold rotational axis (C₂) that passes through the oxygen atom and bisects the H-O-H bond angle, as well as two vertical mirror planes (σv) that contain the C₂ axis and each hydrogen atom. This symmetry describes the molecule's bent shape and its non-linear geometry.
Alcohols have the functional group -OH, which is derived from the inorganic molecule water (H2O). In alcohols, the hydrogen from water is replaced by an organic group.
If the replacement group has the empirical formula CnH(2n +1), the product is an alcohol.
The reaction to bind two molecules of glycine together and release a molecule of water is a condensation reaction. In this reaction, the carboxyl group of one glycine molecule reacts with the amino group of another glycine molecule, forming a peptide bond between them. Water is eliminated during this process.
The charged amino group on the histamine molecule makes it water-soluble. This group can form hydrogen bonds with water molecules, allowing histamine to dissolve in water.
Yes, geraniol is a polar molecule. It has a hydroxyl (-OH) group that contributes to its polarity, allowing it to interact with water and other polar solvents. The presence of this functional group, along with its hydrocarbon chain, gives geraniol both hydrophilic (water-attracting) and hydrophobic (water-repelling) characteristics.
Alcohols have the functional group -OH, which is derived from the inorganic molecule water (H2O). In alcohols, the hydrogen from water is replaced by an organic group.
same
If the replacement group has the empirical formula CnH(2n +1), the product is an alcohol.
Water has stronger hydrogen bonds between its molecules compared to alcohol, leading to a higher melting point. These hydrogen bonds require more energy to break apart, resulting in a higher melting point for water than alcohol.
A symmetry of a brain coral refers to its radial symmetry, where its structure is arranged around a central point, much like the spokes of a wheel. This symmetry helps brain corals efficiently capture food particles from the water.
A glycosidic bond is a type of covalent bond that links a carbohydrate molecule to another group, which could be another carbohydrate or a non-carbohydrate molecule. It is formed through a condensation reaction between the hydroxyl group of one molecule and the anomeric carbon of another molecule, releasing a molecule of water.
Three, because you end up w/ three "OH" and three "H". (oxygen and hydrogen and hydrogen).
The reaction to bind two molecules of glycine together and release a molecule of water is a condensation reaction. In this reaction, the carboxyl group of one glycine molecule reacts with the amino group of another glycine molecule, forming a peptide bond between them. Water is eliminated during this process.
No. Because of it's symmetry carbon dioxide is nonpolar.FalseLove, Nessa
hydrogen bonding increases the intermolecular attractions and therefore increases the boiling point and melting point.
There are two parts to the phospholipid molecule. One is a hydrophobic hydrocarbon chain, which points away from water. The other is a hydrophilic phosphate ionic group, often represented as the "head" of the molecule, which points towards water.
Quite a few fit that description (including water, carbon dioxide, borane etc.)