acid + base = salt + water
An acid neutralizes a base when they react with each other and salt and water are formed. hence it is also known as neutralization reaction.
When an acid and a base are placed together, they react to neutralize the acid and base properties, producing a SALT. The H(+) cation of the combines with the OH(-) anion of the base to form water. The compound formed by the cation of the base and the anion of the acid is called a salt.
Eg
The combination of hydrochloric acid and sodium hydroxide produces common table salt, NaCl
HCl (aq)+NaOH (aq)→H2O (l)+NaCl (s)
2HCl + Ca(OH)2 ---> CaCl2 + 2H2O
when 3,6-dimethylcyclohexene is reacted with aqueous sulfuric acid, one of the products 1,4-dimethylcyclohexan-1-ol show the mechanism
when the following molecules is reacted with HI, four main organic products are observed. what would these be? 0ェ 2
9. Acid-Base Titrations Acid-Base titrations are performed to determine the concentration of an acid or base in a solution When the number of moles of in an acid is equal to the moles of in the base, water is formed and no acid or base is left unreacted. The solution has a pH of 7 and is called neutral. In an acid-base titration we use this concept to find out the concentration of an acid by adding base until all...
HF is a weak acid (a monoprotic one). When HF is titrated with a strong base (like NaOH), it will eventually reach an equivalence point where exactly all of the HF has been reacted with exactly the needed amount of NaOH. What will the pH be when HF reaches equivalence point? (Hint: think about what products will be present and whether they are weak acids, weak bases or neutral...) pH will be 7.0 pH will be greater than 7.0 pH...
1. Give the products of the acid-base reactions below and indicate whether products or reagents would be favored. a. CH,CO2 + CF3CH2OH b. H3N + CH3O^Na = c. H2N + NH3 d. H3N + HAP+ e. CHCEC + H.C f. H30* + NH3 g. H2O + CH3CO2H h. H2O + H2S nf the three heteroveles below. Of these three nitrogen
13. For each of the following Bronsted-Lowry acid/base reactions a) provide products that would form if the reaction proceeds as written. b) label the acid and base on each side of the reaction. c) draw an arrow indicating which way the equilibrium actually lies. CH,CH,CH2CHLI + CH3CH2NH2 OBSONOROU cow - puondon aupréou — CH2CH2COH + CH3CHCONa that contains one sp-hybridized carbon and, 1 sp-hybridized
Acid: Base: Identify the products formed in this Brønsted-Lowry reaction. HCO, + HBrO – acid + base Identify the products formed in this Brønsted-Lowry reaction. HCO3 + NO, acid + base acid: NO, base: || HCO,
Identify the products formed in this Brønsted-Lowry reaction. HCO3 + CN“ acid + base acid: base:
Draw the inorganic and inorganic products for the following acid/base reaction. Include charges. Draw the organic and inorganic products for the following acid/base reaction Include charges. Draw the organic and inorganic products for the following acid/base reaction Include charges.
Write the products of the following acid-base reaction. You should include all products. If the reaction is a Bronsted acid-base reaction, draw the products in separate sketchers. Separate multiple products using the + sign from the drop-down menu. If the reaction is a Lewis acid-base reaction, draw the products in a single sketcher, with a single bond connecting the Lewis base and Lewis acid.