Problem 35E

The Ideal-Gas Equation (Section)

Complete the following table for an ideal gas:

P |
V |
n |
T |

2.00 atm |
1.00 L |
0.500 mol |
? K |

0.300 atm |
0.250 L |
? mol |
27 °C |

650 torr |
? L |
0.333 mol |
350 K |

? atm |
585 mL |
0.250 mol |
295 K |

Melodi Harfouche Chemistry 130 Dr. Yihui Yang 02/09/2017 Integrated Rate Law: Dependence of Concentration on Time The integrated rate law essentially links concentrations of reactants or products w/time directly For the reaction A products, the rate is =k[A]^n Applying calculus to integrate the rate law (which is the initial rate of a reaction) gives another equation which shows the relationship between the concentration of reactant A and the time of the reaction o That equation that comes out of that is the integrated rate law FirstOrder Reactions For firstorder reactions, the rate law is =k[A]^1, which is essentially just =k[A] For the integrated rate law of a firstorder reaction it is o where