3C. 2 NOBr(g) <-- > 2 NO(g) + Br2(g) At a particular temperature at equilibrium, a 3.5 - L flask contains 2.18 mol Br2, 1.35 mol NOBr, and 0.175 mol NO. Calculate Kc at this temperature. 3D. 2 SO2(g) + O2(g) <-- > 2 SO3(g ) At some temperature at equilibrium, a 3.00 - L flask contains 0.0108 mol SO 2, 0.0114 mol O2, and 0.0235 mol SO3. Find Kc at this temp. and state if [SO 2] = 0.0505 M, [SO3] = 0.280 M, and [02] = 0.0245 M represents equilibrium at this temp.

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3C. 2 NOBr(g) <-- > 2 NO(g) + Br2(g) At a particular temperature at
equilibrium, a 3.5 - L flask contains 2.18 mol Br2, 1.35 mol NOBr, and 0.175 mol
NO. Calculate Kc at this temperature. 3D. 2 SO2(g) + O2(g) <-- > 2 SO3(g
) At some temperature at equilibrium, a 3.00 - L flask contains 0.0108 mol SO
2, 0.0114 mol O2, and 0.0235 mol SO3. Find Kc at this temp. and state if [SO
2] = 0.0505 M, [SO3] = 0.280 M, and [02] = 0.0245 M represents
equilibrium at this temp.
Transcribed Image Text:3C. 2 NOBr(g) <-- > 2 NO(g) + Br2(g) At a particular temperature at equilibrium, a 3.5 - L flask contains 2.18 mol Br2, 1.35 mol NOBr, and 0.175 mol NO. Calculate Kc at this temperature. 3D. 2 SO2(g) + O2(g) <-- > 2 SO3(g ) At some temperature at equilibrium, a 3.00 - L flask contains 0.0108 mol SO 2, 0.0114 mol O2, and 0.0235 mol SO3. Find Kc at this temp. and state if [SO 2] = 0.0505 M, [SO3] = 0.280 M, and [02] = 0.0245 M represents equilibrium at this temp.
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