The particulate model shown below represents the moles of particles present in the container after D(g) and F2(9) have reacted in a different experiment. Assume that each particle in the diagram represents one mole of the respective substance. (Note: The box corresponding to "Before Reaction" is intentionally left blank.) = D 00 = F, X= DF4 Before Reaction After Reaction (d) If the total pressure at the end of the reaction is 12 atm, what is the partial pressure of D(g)?

Hi please use the graph (pic 1) to answer the question (pic 2)

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The particulate model shown below represents the moles of particles present in the container after D(g) and F2(g) have reacted in a different experiment. Assume that each particle in the diagram represents one mole of the respective substance. (Note: The box corresponding to “Before Reaction" is intentionally left blank.) = D 00 = F2 = DF4 Before Reaction After Reaction (d) If the total pressure at the end of the reaction is 12 atm, what is the partial pressure of D(g)?

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An unknown gas, D, reacts with fluorine gas to form the compound DF4(g), as represented by the following equation. D(g) + 2 F2(9) → DF4(9) A series of experimental trials were performed at 600°C to determine the rate law expression for the reaction. Data from the trials are shown below. Initial Pp Initial PF2 Initial Rate of Appearance of DF,(9) (torr) (torr) (torr/min) Trial 1 1500 1500 5.00 x 10–3 Trial 2 3000 1500 10.0 x 10-3 Trial 3 1500 3000 20.0 x 10–3