I don't know what CH2COOH is but CH3COOH is acetic acid. This might be what you mean.
It is a type of polyester.
Succinic acid is a weak diprotic acid (CH2COOH).
The chemical formula of aspartic acid is HOOCCH(NH2)CH2COOH or C4H7NO4.
CH3CH2C(=O)CH2COOH This substance can also be known as 3-keto-pentanoic acid.
The equation for Citric acid water would be HOCv(CH2Cooh)2 COOH + H2O. Citric acid is a weak organic acid that is a natural preservative.
The mass of one mole of a substance is its molecular mass in grams. The molecular mass of acetic acid (CH3COOH) is: 12 + (3 x 1) + 12 + 16 + 16 + 1 = 60, therefore, 1 mole of acetic acid has a mass of 60g. (The numbers used in the calculation are the mass numbers of each element)
Succinic acid is a weak diprotic acid (CH2COOH).
It is 2-hydroxyethanoic acid. also commonly called as glycolic acid.
The chemical formula of aspartic acid is HOOCCH(NH2)CH2COOH or C4H7NO4.
CH3CH2C(=O)CH2COOH This substance can also be known as 3-keto-pentanoic acid.
The equation for Citric acid water would be HOCv(CH2Cooh)2 COOH + H2O. Citric acid is a weak organic acid that is a natural preservative.
It is 'hexanoic acid' or 'caproic acid'.
There is no amino acid sequence in aspartate.Related Information:Aspartate is the anion of an amino acid by itself: -OOCCH(NH2)CH2COO-Aspartic acid is an α-amino acid with the chemical formula HOOCCH(NH2)CH2COOH. This is one of the 20 proteinogenic amino acids.
The mass of one mole of a substance is its molecular mass in grams. The molecular mass of acetic acid (CH3COOH) is: 12 + (3 x 1) + 12 + 16 + 16 + 1 = 60, therefore, 1 mole of acetic acid has a mass of 60g. (The numbers used in the calculation are the mass numbers of each element)
They are easier to write and take less space. It is also a lot less confusing to read something like C3H7NO2 than "three carbons, seven hydrogens, a nitrogen and two oxygens", or to see a structure as CH3CH(COCl)CH2COOH rather than write out "three hydrogens bonded to a carbon, which is bonded to a further carbon along with one hydrogen atom and two further carbons; one of which has one oxygen and one chlorine bonded to it, the other having two hydrogens and a fifth carbon, the last having two oxygens bonded to it, and one of these also bonding to a hydrogen".
Remember the equation moles = mass(g) / Mr The Mr ( Relative molecular mass) for ethanoic (acetic) acid is CH2COOH C x 2 = 12 x 2 = 24 H x 4 = 1 x 4 = 4 O x 2 = 16 x 2 = 32 24 + 4 + 32 = 60 ( The Mr ( Ethanoic acid) ) Substituting moles = 458.77 g / 60 = 7.6461666.... moles moles ~ 7.65 ( 2 d.p.)
The polymer is 'proteine' or better 'polypeptide' (n= big number) and monomer is a 'tetrapeptide' existing of 4 (=tetra) amino acids: -[Gly-Ser-Gly-Ala]n- (lineary coupled, n-times, in this order).(Note the alternating sequence of glycene (Gly) with serine (Ser) and alanine (Ala))The high proportion (50%) of glycine (GLY), which is the smallest amino acid (H2N-CH2COOH), allows tight packing, so the fibers are strong and resistant to stretching. The tensile strength is due to the many interseeded hydrogen bonds.Since the protein forms a 'Beta plated sheet', when stretched the force is applied to these strong bonds and they do not break.
This can be explained by the fact that iodine being electronegativity with an -I effect can stabilize the carbohydrates in which is produced after the ionization of acid by dispersing its negative charge . It therefore favours the ionization of carboxylic acid and thus enhances its acidity . CH3COOH + H2O CH3COO- + H3O I-CH2COOH + H2O______ I-CH2COO- + H3O+