Additional Questions Consider the following reaction at equilibrium: PCB (g) + Cl2(g) ---PC1s (8) + Heat...
Consider the equilibrium: PC1s(g) = PCI(g) + Cl2(g) Predict the direction of the shift in equilibrium when the temperature is lowered AHO-92.5 kJ. some chlorine gas is removed from the reaction mixture c. pressure on the gas is lowered d. catalyst is added to the reaction mixture
10. Examine the reaction: 2NOCI(g) 2NO (g) + Cl2(g) When the above reaction reaches equilibrium the concentration of each component is [NOCI] = 2.9 M. [NO] =1.1 Mand [Cl2] = 0.65 M. What is the equilibrium constant, K for this reaction? Does the equilibrium lie on the left side or the right side of the equilibrium? 9. The following equilibrium is endothermic. In the box below, show how the reaction will shift response to the indicated stress by writing,, or...
Question 1. Phosphorous trichloride reacts with chlorine to produce phosphorus pentachloride: PC13(g) + Cl2(8) - PC1s(8) The equilibrium constant (Kc) for the reaction is 96 at 400 K If the equilibrium concentration of PC13 is 0.50 M and Cl, is 0.070 M, what is the equilibrium concentration of PCI ? Question 2. Consider the reaction between hydrogen and iodine H2(g) + 12(6) 2 HI(g) Kc = 64 Initially, a container was charged with 0.55 atm of H, and I2, what...
References The equilibrium constant (K.) for the reaction PC1: (9) + Cl2(g) – PC1s (9) equals 49 at 230°C. If 0.702 mol each of phosphorus trichloride and chlorine are added to a 4.50 L reaction vessel, what is the equilibrium composition of the mixture at 230°C? mol PC mol Cl, mol PCLS Submit Answer Try Another Version 6 item attempts remaining
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...
questions: 2,3 & 4 1. Consider the following reaction: PCI (1) + Cu(a) PCIS (s) + BBkJ Equilibrium will shift ? (or How wil this affect the amoun no change) of CI, ? increase, decrease.no Change change) Increase the temperature Backwand Increase Add a catalyst unchanged unchange Increase the amount of chlorine Forward Decrease Add more PCI Do change No Change Increase the volume Balk ward increase Increase the pressure Forward I fecrease 2. What is equal at equilibrium? 3....
(6.6)Consider the following reversible reaction at equilibrium CO(g) + Cl2(g) = COCI200). If the pressure inside the reaction vessel is increased, the equilibrium will shift to the left. Select one: True False Check
Consider the following equilibrium reaction : Heat + 2 SO2 (g) + O2(g) ↔ 2 SO3(g) Assume the above reaction is allowed to reach equilibrium prior to the following changes. Answer the following questions by writing increase, decrease or remain the same on the line. **please also explain why** If the reaction mixture is heated up , the value of the equilibrium constant will _______________________ If SO2 (g) is added to the reaction vessel the concentration of O2(g) will____________________________. If SO3 (g) is...
10. (5 pts) Consider the following reaction in equilibrium H2(g) + Brz(g) → 2 HBr (g) AH = + 68 kJ How will each of the following changes affect the equilibrium concentrations of each chemical: a) addition of HBr(g) b) increasing temperature c) increasing pressure d) decreasing volume of the reacting vessel at constant temperature. e) addition of bromine f) addition of argon g) addition of catalyst
QUESTION 2 Consider the following reversible reaction at equilibrium: 3H2(g) + N2(g) → 2NH3(g) + heat Which of the following changes will shift the equilibrium towards the products (right side)? Decreasing the amount of NH3. Increasing the temperature. Adding a catalyst to the system. Decreasing the amount of H2. Increasing the volume of the system.