For example a carbonate as calcium carbonate, sodium carbonate, etc. containing the ion CO32-.
Self-condensation of malic acid with fuming sulfuric acid gives the pyrone coumalic acid.
no part of ion is part of amino acid
The reaction between an acid and a metal is an example of a single-replacement reaction.
An acid contain the ion H+ or (COOH)+ and a base contain the ion (OH)-.
Also an inorganic acid contain the ion H+ and an organic acid the ion (COOH).
dio nucleic acid a.k.a. DNA
Hydrochloric acid, HCl, always gives an H+ ion when placed in solution. Hence it is an acid.
because it gives ion proton H+
The conjugate base for H2O is the hydroxide ion, OH-. When the hydroxide ion reacts with another water molecule, a hydrogen ion may be transferred, resulting in a water molecule and a hydroxide ion. Therefore, the conjugate base of water is OH-
An acid is a substance that releases hydrogen ions, H+, in an aqueous (water) solution, or a substance that gives up a hydrogen ion to another molecule or ion depending on which definition you use.
Self-condensation of malic acid with fuming sulfuric acid gives the pyrone coumalic acid.
The A- ion is the generic term for the conjugate base of an acid. The charge is balanced by an H+ ion. The identity and formula of this ion depends on the acid, for example, if the acid is acetic CH3CO2H acid, A- is the acetate ion or CH3CO2- If it is sulfuric acid (H2SO4) A- is the bisulfate ion HSO4-
NaOH is a base.As it gives hydroxyl ion in water acc to arrehenious concept.
no part of ion is part of amino acid
Acids don't so much break up water as much as they break up in water into ions. An acid molecule gives up a hydrogen ion (H+) to a water molecule to form a hydronium ion (H3O+) and another, negative ion. The identity of the negative ion depends on the acid. For example, the ionization of hydrochloric acid (HCl) goes like this HCl + H2O --> Cl- + H3O+
No, HNO3 produces just one proton (hydrogen nucleus) per molecule. It is monoprotic.
It's an acid because it has a hydrogen ion in front of the iodine ion.