In addition to filling in the blanks below, show all of your work for this problem on paper for later upload. NO is an air pollutant that is produced in internal combustion engines at high temperatures. The reaction that applies in this case is: N2(g) +O2(g) = 2 NO(g) which has K.= 1.7 ´ 10³ at 2300 K. If the initial concentrations of N2 and O2 are both 1.40 M, determine the concentrations of all three species at equilibrium. Enter your value of [N2] in splution in the first box and an appropriate unit of measure in the second box. Enter your value of [O2] in solution in the first box and an appropriate unit of measure in the second box. A Enter your value of [NO] in solution in the first box and an appropriate unit of measure in the second box.

Transcribed Image Text:

### Determining Equilibrium Concentrations of Gases **Problem Statement:** Show all of your work for this problem on paper for later upload. **Context:** NO is an air pollutant that is produced in internal combustion engines at high temperatures. The reaction that applies in this case is: \[ \text{N}_2(g) + \text{O}_2(g) \leftrightarrow 2\text{NO}(g) \] **Equilibrium Constant:** \[ K_c = 1.7 \times 10^{-3} \text{ at 2300 K} \] **Initial Conditions:** If the initial concentrations of \( \text{N}_2 \) and \( \text{O}_2 \) are both \( 1.40 \, M \), determine the concentrations of all three species at equilibrium. **Instructions:** Enter your value of \( [\text{N}_2] \) in solution in the first box and an appropriate unit of measure in the second box. \[ [\text{N}_2] \] \[ \boxed{\phantom{N_2}} \] \[ \boxed{M} \] Enter your value of \( [\text{O}_2] \) in solution in the first box and an appropriate unit of measure in the second box. \[ [\text{O}_2] \] \[ \boxed{\phantom{O_2}} \] \[ \boxed{M} \] Enter your value of \( [\text{NO}] \) in solution in the first box and an appropriate unit of measure in the second box. \[ [\text{NO}] \] \[ \boxed{\phantom{NO}} \] \[ \boxed{M} \]