Consider the second-order reaction: 2HI(g)→H₂(g) + I2(g) Use the simulation to find the initial concentration [HI]o and the rate constant k for the reaction. What will be the concentration of HI after t = 9.18x1010 s ([HI]t) for a reaction starting under the condition in the simulation? Express your answer in moles per liters to three significant figures.

Initial rate: 1.6 •10^-7mol/L•s K=6.4 •10^-9L/mol•s Rate law: k[HI]^2 Can you please show me the steps.

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**Part B: Reaction Simulation Task** **Consider the second-order reaction:** \[ 2HI(g) \rightarrow H_2(g) + I_2(g) \] Use the simulation to find: - The initial concentration \([HI]_0\) - The rate constant \(k\) for the reaction. **Task:** Determine the concentration of \(HI\) after \( t = 9.18 \times 10^{10} \, \text{s} \, ([HI]_t) \) for a reaction starting under the conditions in the simulation. **Instruction:** Express your answer in moles per liter to three significant figures. \[ [HI]_t = \] ________ mol/L **Note:** Use the input box provided to submit your answer. **Additional Elements:** - A button labeled "View Available Hint(s)" for assistance. - A submit button for entering the final concentration value. **Additional Parts Mentioned:** - Part C: Complete previous part(s). - Part D: Complete previous part(s).