Equilibrium reactionKeq expressionStress appliedEffectEquilibrium Shi(encircle youranswer)(encircle youranswer)(increase,decrease,change) inH2le) + Cl2te)2 HCI(g)Decreasing theForwardpressurenoBackward(HCI)2the No ShiftK=( H2)(Cl2)number of molesof HCl(g)e (increase,decrease,change) inFe;O4(s) + 4 H2(g) + heat3 Fe(s) + 4IncreasingForwardtemperatureBackwardnoH,O(g)(H20)*the No ShiftK=(H2)4volume of water2 NO(g) + O,(g)2 NO2(g) + heatvapor collectedf (increase,AdditionForwardheliumdecrease,BackwardnoK=(NO2)?change) intheNo Shift(NO)2 (02)number of molesof NOH,CO3(aq)CO.(aq) + H,0(1)Removal of C(increase,decrease,change)amount of H,CO3(increase,decrease,change)amount of O2Forward(CO2)K=noBackward(H2CO3)intheNo Shift4 NH3(g) + 5 0,(g)4NO(g)H,O(g) + heatIncreasingForward+ 6(NO )* (H20) temperatureK=noBackward(NH3) (02)5intheNo Shift

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Equilibrium reaction Keq expression Stress applied Effect (encircle your answer) (increase, decrease, Equilibrium Shin (encircle your answer) H2le) + Cl2te) 2 HCI(g) Decreasing th Forward pressure no Backward (HCI)2 K= change) in the No Shift (H2)(Cl2) number of moles Fe,0(s) + 4 H2(g) + heat 3 Fe(s) + 4 Increasing temperature of HCI(g) e (increase, decrease, Forward no Backward H,O(g) (H20)* change) K= in the No Shift (H2)4 volume of water 2 NO(g) + O2(g) 2 NO2(g) + heat vapor collected f (increase, decrease, Addition Forward helium Backward no (NO2) change) in number of moles K= the No Shift (NO)2 (02) of NO H,CO;(aq) CO.(aq) + H,O(I) Removal of C (increase, decrease, change) in amount of H2CO, Forward (CO2) K= no Backward (H2CO3) the No Shift 4 NH3(g) + NO(g) H,O(g) + heat 5 0(g)4 Increasing temperature (increase, decrease, Forward (NO ) (H20) K= Backward no (NH3) (02)5 change) amount of O2 in the No Shift

Equilibrium reaction Keq expression Stress applied Effect (encircle your answer) (increase, decrease, Equilibrium Shin (encircle your answer) H2le) + Cl2te) 2 HCI(g) Decreasing th Forward pressure no Backward (HCI)2 K= change) in the No Shift (H2)(Cl2) number of moles Fe,0(s) + 4 H2(g) + heat 3 Fe(s) + 4 Increasing temperature of HCI(g) e (increase, decrease, Forward no Backward H,O(g) (H20)* change) K= in the No Shift (H2)4 volume of water 2 NO(g) + O2(g) 2 NO2(g) + heat vapor collected f (increase, decrease, Addition Forward helium Backward no (NO2) change) in number of moles K= the No Shift (NO)2 (02) of NO H,CO;(aq) CO.(aq) + H,O(I) Removal of C (increase, decrease, change) in amount of H2CO, Forward (CO2) K= no Backward (H2CO3) the No Shift 4 NH3(g) + NO(g) H,O(g) + heat 5 0(g)4 Increasing temperature (increase, decrease, Forward (NO ) (H20) K= Backward no (NH3) (02)5 change) amount of O2 in the No Shift

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

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