acid is hbr and the base is h2o
HBr + NaOH ------> NaBr + H2O This is an acid-base reaction. The compounds will disassociate into ions in solution. The hydrogen from the HBr will go to the OH- and form water. The NaBr is a salt.
H3o+
The reaction is:HBr + KOH = KBr + H2O
This equation is Na2CO3 + 2 HCl -> 2 NaCl + CO2 (gas) + H2O.
Hydrobromic acid, or HBr, decomposes through the following reaction: HBr(g) + H2O(l) --> H3O+ + Br- . Hydrobromic acid is a gas at room temperature.
HBr + NaOH ------> NaBr + H2O This is an acid-base reaction. The compounds will disassociate into ions in solution. The hydrogen from the HBr will go to the OH- and form water. The NaBr is a salt.
H3o+
The reaction is:HBr + KOH = KBr + H2O
This equation is:HBr + LiOH = LiBr + H2O
This equation is Na2CO3 + 2 HCl -> 2 NaCl + CO2 (gas) + H2O.
Hydrobromic acid, or HBr, decomposes through the following reaction: HBr(g) + H2O(l) --> H3O+ + Br- . Hydrobromic acid is a gas at room temperature.
No. HBr is a strong acid.
The reaction is:Sr(OH)2 + 2 HBr = SrBr2 + 2 H2O
NO!!! It is a neutralisation reaction. Reason it produces water (pH =7) KOH + HBr = KBr + H2O KBr (Potassium bromide) is a (chemical) salt. Remember the the empirical acid equations. Acid + Alkali = Salt + water Acid + Base = Salt + water Acid + metal = Salt + hydrogen Acid + carbonate = Salt + Water + Carbon dioxide. NB Acid formulas are always writen as 'HA'. Where 'A' is the anion. Alkali formulkas are always written as 'MOH'. Where 'M' is the metal cation. NNB Notice the positions of the 'H' in these formulas.
HBr + H2O ----> H3O+ + Br-According to the Brownsted-Lowry definition, acidsare substances that donate H+ ions and bases are substances that accept H+ ions. The HBr gives away a H+ to the H2O making it Hydronium (H3O+), so that makes the HBr an acid and the H2O a base.
This is a Neutralization reaction. HBr(aq)+CsOH(aq)--->CsBr(aq)+H2O(l)
HBr is an acid. It gives hydroxonium ions and bromide ions when dissolving in water.