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pressure is 0.967 ATM Temp is 296.75 and N= 0.0109 moles Volume is 0.27311 L help me work through calculations 2) The dissociation reaction involves
pressure is 0.967 ATM Temp is 296.75 and N= 0.0109 moles Volume is 0.27311 L help me work through calculations
2) The dissociation reaction involves breaking a single NN bond: N2O4(g)2NO2(g) To determine Kp at a given temperature, we need to know the partial pressures of the two gases, PNO2 and PN2O. We know that at every temperature, PNO2+PN2O4=Patm Since we know pressure Patm, volume V and temperature T, we can use the ideal gas law to solve for Ntot, the total number of moles of gas present. Then we have NNO2+NN2O4=Ntot By weighing the flask with the gas, we also know the total mass of gas present, which is just NN2OMWNO2+NN2O4MWN2O4=TotalMass 45 We now have 2 equations and two unknowns ( NNO and NN2O ) that can be solved. Solve equations (1) and (2) for each temperature and make a table of temperature and the NNO and NN2O values. 3) With NNO2 and NN2O, you can solve for the partial pressures and obtain the equilibrium constant
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Quantum Chemistry
Authors: Ira N. Levine
7th edition
321803450, 978-0321803450
