Editing Answers To LeChatlier's Principle
ChemistryWiki
|
RecentChanges
|
Preferences
<br> <b>In following, I provide "note". This information is not required in your answer but is stated to provide more clarity.</b><br> ----<br> Stress:<u>Increase Temperature (add, increase give Energy)</u><br> Rxn: <u>Decrease Temperature (consume Energy)</u><br> Make more reactant *note: since Energy on product side, consume product make reactants<br> Favoring Backward reaction <u>Backward reaction is Endothermic</u> *note: since we want to consume Energy<br> Shift Equilibrium to Left<br> *note: new Equil has more reactant than original Equil<br> -----<br> Stress:<u>Increase Pressure (adding, increasing # of particles)</u><br> Rxn:<u>Decreasing Pressure (consuming particles)</u><br> Make more products <u>3 reactant particles --> 1 product particle</u><br> *note: instead of -->, could use words (becomes, etc)<br> Favor Forward rxn<br> Shift Equilibrium to Right<br> -----<br> Stress: <u>Increase Temperature (add, give Energy)</u><br> Rxn:<u>Decrease Temperature (consume Energy)</u><br> Make more products<br> Favor Forward reaction, <u>Forward reaction is Endothermic</u><br> Shift Equilibrium to Right<br> ------<br> Stress: <u>Adding [C]</u><br> Rxn: <u>Remove or consume [C]</u><br> Make more Reactant<br> Favor Backward reaction<br> Shift Equilibrium to Left<br> -----<br> <center><b>2020-2021 Student DO NOT NEED TO DO</b></center><br> Stress:<u>Decrease Pressure (remove # of particles)</u><br> Rxn:<u>Increase Pressure (adding particles)</u><br> No Equilibrium shift since there are 2 gas reactant particles and 2 product particle so system can't add particles (solid reactant are not involved).<br>
View other revisions
ChemistryWiki
|
RecentChanges
|
Preferences