. Acids are proton donars. The list is: Fe (NO3)3 NaClO NaNO3 CH3NH3CN and CH3NH3Cl So salts that result from the reaction of a weak acid and a strong base are basic, and weak bases with strong acids will be acidic. Methylamine, CH3NH2, is a weak base that reacts with water according to the equation above. It is acidic appose to basic. CH3NH3Cl is an ionic compound, consisting of CH3NH3+ and Cl- ions. It has a role as a mouse metabolite. A base is a proton acceptor, a . We have two most important acid-base theories to check whether NH 4 + is an acid or base in nature. Solved When methylamine, CH3NH2, reacts with water it forms | Chegg.com CH3NH3 acts as Brønsted-Lowry acid because it gives away a proton. The terms "acid" and "base" refer to a Brønsted-Lowry acid . OneClass: CH3NH2 + HCl = CH3Nh3+ + Cl- A conjugate acid-base pair in ... This theory tells if any compound can release the proton when dissolved in an aqueous solution, qualify as acid and if any compound can release the hydroxide ions when dissolved in an aqueous solution, qualify as the base. Is CH3NH3Cl an acid or base? Base characteristics, bronsted acids and bases, identify conjugate acid/base, acids, bases, and conjugates : 1 naoh sodium hydroxide 2 h 2so 3 sulfurous acid 3 h 2s hydrosulfuric acid 4 h 3po 4 phosphoric acid 5 nh 3 ammonia 6 hcn hydrocyanic acid 7 ca oh 2 calcium hydroxide 8 . According to Bronsted-Lowry theory acid are donor of protons and bases are acceptors of protons (the hydrogen cation or H⁺). 4 . Is CH3NH3Cl an acid or base? A Lewis acid or base does not have to involve protons at all or even water. Solved Which base, CH3NH2 or (CH3)2NH, is the stronger base? | Chegg.com TABLE OF CONJUGATE ACID-BASE PAIRS Acid Base K a (25 oC) HClO 4 ClO 4 - H 2 SO 4 HSO 4 - HCl Cl- HNO 3 NO 3 - H 3 O + H 2 O H 2 CrO 4 HCrO 4 - 1.8 x 10-1 H 2 C 2 O 4 (oxalic acid) HC 2 O 4 - 5.90 x 10-2 [H 2 SO 3] = SO 2 (aq) + H2 O HSO The overall salt does not donate protons, the CH3NH3+ ion does (to form H3O+) when the salt is dissociated in water. DOC NET IONIC EQUATIONS - Towson University