An intermediate step in the process that ultimately produces sulfuric acid, is the catalytic oxidation of SO, to SO3. Vanadium(V) oxide is the catalyst. The three chemical species in the reaction are in equilibrium as follows: 250, (g) + O2(g) 2803(g) Which of the following are true statements about this reaction? 1. When SO, is mixed with O, in a container, the initial rate of the forward reaction (production of SO3) is faster than the initial rate of the reverse reaction (production of SO2). 2. As SO, is used up and SO3 accumulates, the rate of the forward reaction increases and the rate of the reverse reaction decreases. 3. At equilibrium the rate of production of SO3 reaches zero. 4. At equilibrium the concentration of SO, will no longer be changing. > View Available Hint(s) O 1 and 2 O 2 and 3 O 1 and 3 O 1 and 4

ONLY LOOKING FOR THE ANSWER TO PART B. I already got part one!

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Photosynthesis can be represented by Constants I Perlodic Tabie 6CO2(g) + 6H20(1) = C,H12O6 (s) + 602(g) Which of the following will be false when the photosynthesis reaction reaches equilibrium? 1. The rate of formation of Oz is equal to the rate of formation of CO2 2. The concentration of Og will begin decreasing. 3. The concentrations of CO2 and O2 will not change. 4. The concentrations of CO2 and O2 will be equal. • View Available Hint(s) O 1 and 2 are false O 2 and 3 are false O 2 and 4 are false O 3 and 4 are false Submit Part B An intermediate step in the process that ultimately produces sulfuric acid, is the catalytic oxidation of SO, to SO3. Vanadium(V) oxide is the catalyst. The three chemical species in the reaction are in equilibrium as follows: 2S02(g) + O2(8) = 2S03(g) Which of the following are true statements about this reaction? 1. When SO2 is mixed with O2 in a container, the initial rate of the forward reaction (production of SO3) is faster than the initial rate of the reverse reaction (production of SO2). 2. As SO2 is used up and S03 accumulates, the rate of the forward reaction increases and the rate of the reverse reaction decreases. 3. At equilibrium the rate of production of SO3 reaches zero. 4. At equilibrium the concentration of SO, will no longer be changing. > View Available Hint(s) O 1 and 2 O 2 and 3 O 1 and 3 O 1 and 4