No. The rate of the neutralization reaction is concentration dependent, but the "heat of neutralization" is defined on a molar basis already, so it is not.
No
The answer will depend on how much ammonium carbonate. In one molecule of the substance, there are 8.
A neutralisation reaction is otherwise known as an acid/base reaction. The general rule for acid/base reactions is as follows: acid + base --> salt + water The products depend on the reactions. For example. If we combined hydrochloric acid and soduim hydroxide we would get sodium chloride and water. HCl + NaOH --> NaCl + H2O
Its value does not depend on which reaction are added
The enthalpy of a reaction does not depend on the intermediate reactions.
C - The enthalpy of reaction does not depend on the steps taken in the reaction. APEX --WXM--
The answer will depend on how much ammonium carbonate. In one molecule of the substance, there are 8.
The ratio of oxygen to hydrogen in a polysaccharide is independent of the type of monosaccharides that it consists of. The ratio does not depend on the number of carbons in the monosaccharide. Thus, for all polysaccharide compounds the ratio of hydrogen to oxygen is 2:1.
A neutralisation reaction is otherwise known as an acid/base reaction. The general rule for acid/base reactions is as follows: acid + base --> salt + water The products depend on the reactions. For example. If we combined hydrochloric acid and soduim hydroxide we would get sodium chloride and water. HCl + NaOH --> NaCl + H2O
The reaction of C13H10 with CH3OH would likely result in a substitution reaction, where CH3OH replaces one of the hydrogen atoms in C13H10. The specific product would depend on the reaction conditions and the specific mechanism of the reaction.
Its value does not depend on which reaction are added
The catalysts can be used to increase or decrease the speed of a chemical reaction. The catalysts which reduce the speed of a reaction are called negative catalysts. They decrease the speed of the reaction by increasing the activation energy of the reaction.
The temperature will depend on the reaction that is under consideration.
Absolutely not.
The enthalpy of a reaction does not depend on the intermediate reactions.
The enthalpy of a reaction does not depend on the reactant path taken.
The oxygen molecule, theoretically, does not live. We depend on it. So yes.
C - The enthalpy of reaction does not depend on the steps taken in the reaction. APEX --WXM--