CO(g)+2H2(g)⇌CH3OH(g)CO(g)+2H2(g)⇌CH3OH(g) The reaction between COCO and H2H2 is carried out at a specific temperature with initial concentrations of COCO = 0.30 M M and H2H2 = 0.52 M M. At equilibrium, the concentration of CH3OHCH3OH is 0.16 M M.
According to the table below, the reaction is
______________________ with respect to B.
A + 2B
C + 2D
[A][M]
[B] (M)
Initial Rate (M/s)
0.25
0.25
0.015
0.25
0.25
0.015
0.25
0.25
0.015
a. zero order
b. first order
c. second order
d. third order
When studying the same reaction at different temperatures, which rate constant value is associated with the HIGHEST temperature? a) 0.046 M's b) 0.023 M's c) Can't tell without knowing initial rates d) Can't tell without knowing the balanced equation e) Both c) and d)
Imagine that for the unimolecular reaction A ⟺
B, the value of ΔG° is -1.17
kcal/mol. If equimolar initial amounts of A and B react at 25 °C,
what fraction of the molecules will be B molecules once the system
has come to equilibrium?
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The zero order reaction 2N2O→2N2+O2 has the rate constant k of 7.20×10−3 molL s. If the initial concentration of N2O is 0.891 molL, what is the concentration of N2O after 2.00 seconds? Your answer should have three significant figures (three decimal places).
The following first-order gas-phase reaction occurs in an isothermal, isobaric PFR reactor: A->2B. There is 60% A and 40% inert in the initial feed. If the volumetric flow rate at the outlet of the reactor is 1.3 times of the one at entrance, calculate the conversion rate of the reactor. Assume ideal gas law (PQ = NRT)
2 NO(g) + 2 H2(g) → N2(g) + 2 H2O(g) the initial concentrations are 5.25 M H2, 9.50 M NO, and no H2O or N2. At equilibrium, [N2] = 1.00 M. a. Calculate the concentrations of H2, NO, and H2O at equilibrium. b. Calculate the value of K under the reaction conditions at equilibrium.
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Predict the product(S) for the following reactions
Predict the product H20