No. This is a reaction, but not a reaction mechanism. The mechanism would should the individual steps or alterations that take place with the HCl dissociating, and the electrons moving from one place to another, etc.
No, HCl(aq) C2H4(aq)C2H5Cl(aq) is not considered a reaction mechanism. It appears to be a chemical equation representing a single-step reaction where HCl reacts with C2H4 to form C2H5Cl. A reaction mechanism involves multiple steps and intermediates, detailing the complete pathway of a chemical reaction.
I believe it is HClaq with the aq in subscript
When that solution is evaporated completely, only salt remains
If you added less than the amount needed in part (b) of K2SO3, what would be the limiting reactant? If you added more than the amount needed in part (b) of K2SO3, what would be the limiting reactant? Which situation would create the most SO2 gas?excess HClexcess K2SO3 excess H2Oexcess KClperfectly matched amounts of HCl and K2SO3
I believe it is HClaq with the aq in subscript
=> NaClaq + H2O + heat
Since HCl is a strong acid and Ba(OH)2 is a strong base, the reaction that takes place is a simple neutralization reaction. The reaction is represented by the net ionic equation: H+(aq) + OH-(aq) ---> H2O This is the equation whenever any strong acid and strong base react.
When that solution is evaporated completely, only salt remains
If you added less than the amount needed in part (b) of K2SO3, what would be the limiting reactant? If you added more than the amount needed in part (b) of K2SO3, what would be the limiting reactant? Which situation would create the most SO2 gas?excess HClexcess K2SO3 excess H2Oexcess KClperfectly matched amounts of HCl and K2SO3