Consider the following system at equilibrium at 500 K: PCl5 (g) + 21.0 kcal PCl3 (g) + Cl2 (g) Indicate whether each individual change would favor the production of PCl3 (g). Evaluate each change separately, assuming that all other conditions remain constant. Decreasing the temperature. Decreasing the pressure. Increasing the volume. Removing PCl5 . Adding Cl2 . Yes or No answers please
As reaction is endothermic reaction.
Decreasing temperature : Yes
Decreasing pressure : No
Increasing volume : No
Removing PCl5 : Yes
Consider the following system at equilibrium at 500 K: PCl5 (g) + 21.0 kcal PCl3 (g)...
Consider the following system at equilibrium at 648 K: SO2(g) + Cl2)= s02C12(g) + 16.1 kcal Indicate whether each individual change would favor the production of So,Cla(g). Evaluate each change separately, assuming that all other conditions remain constant Decreasing the temperature. Increasing the pressure. Increasing the volume. Removing SO,Cl2 Adding Cl2 Submit Answer Retry Entire Group 9 more group attempts remaining Consider the following system at equilibrium at 800 K: 2 H S (g) + 69.3 kcal = 2 H2(g)...
Consider the following system at equilibrium at 1150 K: 2502(g) +0(= 2503(g) + 47.3 kcal Indicate whether each individual change would favor the production of So,(). Evaluate each change separately, assuming that all other conditions remain constant по Decreasing the temperature.no Decreasing the pressure. Increasing the volume. no Adding SO, Adding 0 Submit Answer Retry Entire Group No more group attempts remain Use the References to access important valoe if needed for the question Consider the following system at equilibrium...
Use the References to access important values if needed for this question Consider the following system at equilibrium at 298 K: 2 NO(g) = N2(g) + O2(g) + 43.2 kcal Indicate whether each individual change would favor the production of N2 (g). Evaluate each change separately, assuming that all other conditions remain constant Decreasing the temperature, yes Decreasing the pressure. no Decreasing the volume. yes Adding NO no Adding O2 no Submit Answer Retry Entire Group 5 more group attempts...
The dissociation of PCl5(g) to PCl3(g) and Cl2(g) is an endothermic reaction. PCl5(g) PCl3(g) + Cl2(g) What is the effect on the position of equilibrium of each of the following changes? a) Compressing the gaseous mixture _________________________________ b) Decreasing the temperature _________________________________ c) Adding Cl2(g) to the equilibrium mixture __________________________________ d) Removing PCl5 (g) from the equilibrium mixture __________________________________
LeChatelier's Principle: Qualitative Interpretation Consider the following equilibrium: PCl5 (g)PCl3 (g) + Cl2 (9) Select all of the following statements are true. Increasing the volume of the reaction vessel wll lead to formation of more Cl2 (9) Removing Cl2 (g) from the reaction vessel will lead to the formation of more PCIs(g). a Decreasing the volume of the reaction vessel will cause the equilibrium to produce more products. Increasing the pressure of PCIs (g) will ead to the formation of...
a) increasing the volume of the containerb) adding some PCl3(g)c) injecting some He gasd) removing some PCl5(g)e) decreasing temperature
please help [Review Topics] [References) Use the References to access important values if needed for this question. Consider the following system at equilibrium at 573 K: 2NO(g) +C1,0) = 2NOCID) + 18.4 kcal Indicate whether each individual change would favor the production of NOCI(g). Evaluate each change separately, assuming that all other conditions remam constant. Decreasing the temperature Decreasing the pressure. Increasing the volume. Adding NOCI Removing Cl. 21e
At 500 K the reaction PCl5(g) <----> PCl3(g) + Cl2(g) has Kp = 0.497. In an equilibrium mixture at 500 K, the partial pressure of PCl5 is 0.860 atm and that of PCl3 is 0.350 atm. What is the partial pressure of Cl2 in the equilibrium mixture?
please help it is suppose to be yes and no answers and I'm confused [Review Topics References Use the References to access important value if needed for this question. Consider the following system at equilibrium at 698 K: 2 HI(g) + 2.49 kcal = H, (g) +13 (8) Indicate whether each individual change would favor the production of H, (g). Evaluate each change separately, assuming that all other conditions remain constant. Decreasing the temperature. Decreasing the pressure. Decreasing the volume....
please help, they are suppose to be yes or no answers? [Review Topics] [References] Use the References to access important values if needed for this question. Consider the following system at equilibrium at 298 K: N2(g) + O2(g) + 43.2 kcal2NO(g) Indicate whether each individual change would favor the production of NO(g). Evaluate each change separately, assuming that all other conditions remain constant. Increasing the temperature. Increasing the pressure. Increasing the volume. Removing NO. Adding O. Submit Answer Retry Entire...