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  • 3.10: Key Equations
    https://chem.libretexts.org/Courses/Widener_University/CHEM_176%3A_General_Chemistry_II_(Fischer-Drowos)/03%3A_Kinetics/3.10%3A_Key_Equations
    integrated rate law for zero-order reactions: half-life for a zero-order reaction integrated rate law for first-order reactions: half-life for a first-order reaction integrated rate law for second-ord...integrated rate law for zero-order reactions: half-life for a zero-order reaction integrated rate law for first-order reactions: half-life for a first-order reaction integrated rate law for second-order reactions: half-life for a second-order reaction
  • 12.10: Key Equations
    https://chem.libretexts.org/Courses/CSU_San_Bernardino/CHEM_2100%3A_General_Chemistry_I_(Mink)/12%3A_Kinetics/12.10%3A_Key_Equations
    relative reaction rates for a A ⟶ b B = − 1 a Δ [ A ] Δ t = 1 b Δ [ B ] Δ t relative reaction rates for a A ⟶ b B = − 1 a Δ [ A ] Δ t = 1 b Δ [ B ] Δ t integrated rate law for zero-order reactions: [ ...relative reaction rates for a A ⟶ b B = − 1 a Δ [ A ] Δ t = 1 b Δ [ B ] Δ t relative reaction rates for a A ⟶ b B = − 1 a Δ [ A ] Δ t = 1 b Δ [ B ] Δ t integrated rate law for zero-order reactions: [ A ] t = − k t + [ A ] 0 , [ A ] t = − k t + [ A ] 0 , integrated rate law for first-order reactions: ln [ A ] t = − k t + ln [ A ] 0 , ln [ A ] t = − k t + ln [ A ] 0 , integrated rate law for second-order reactions: 1 [ A ] t = k t + 1 [ A ] 0 , 1 [ A ] t = k t + 1 [ A ] 0 ,
  • 12.10: Key Equations
    https://chem.libretexts.org/Workbench/OpenStax_Chemistry_Remixed%3A_Clovis_Community_College/12%3A_Kinetics/12.10%3A_Key_Equations
    integrated rate law for zero-order reactions: half-life for a zero-order reaction integrated rate law for first-order reactions: half-life for a first-order reaction integrated rate law for second-ord...integrated rate law for zero-order reactions: half-life for a zero-order reaction integrated rate law for first-order reactions: half-life for a first-order reaction integrated rate law for second-order reactions: half-life for a second-order reaction
  • 12.10: Key Equations
    https://chem.libretexts.org/Courses/CSU_San_Bernardino/CHEM_2200%3A_General_Chemistry_II_(Mink)/12%3A_Kinetics/12.10%3A_Key_Equations
    relative reaction rates for a A ⟶ b B = − 1 a Δ [ A ] Δ t = 1 b Δ [ B ] Δ t relative reaction rates for a A ⟶ b B = − 1 a Δ [ A ] Δ t = 1 b Δ [ B ] Δ t integrated rate law for zero-order reactions: [ ...relative reaction rates for a A ⟶ b B = − 1 a Δ [ A ] Δ t = 1 b Δ [ B ] Δ t relative reaction rates for a A ⟶ b B = − 1 a Δ [ A ] Δ t = 1 b Δ [ B ] Δ t integrated rate law for zero-order reactions: [ A ] t = − k t + [ A ] 0 , [ A ] t = − k t + [ A ] 0 , integrated rate law for first-order reactions: ln [ A ] t = − k t + ln [ A ] 0 , ln [ A ] t = − k t + ln [ A ] 0 , integrated rate law for second-order reactions: 1 [ A ] t = k t + 1 [ A ] 0 , 1 [ A ] t = k t + 1 [ A ] 0 ,

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