1 / 7

KINETICS : POTENTIAL ENERGY OF REACTION GRAPH SLIDE#1 3/29/10 CH 17-18

KINETICS : POTENTIAL ENERGY OF REACTION GRAPH SLIDE#1 3/29/10 CH 17-18. 100 kJ. 90 kJ. 50 kJ. 60 kJ. 70 kJ. 80 kJ. 40 kJ. 30 kJ. 10 kJ. 20 kJ. THIS LINE REPRESENTS THE POTENTIAL ENERGY CONTENT OF THE ACTIVATED COMPLEX DURING THE REACTION.

webb
Télécharger la présentation

KINETICS : POTENTIAL ENERGY OF REACTION GRAPH SLIDE#1 3/29/10 CH 17-18

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. KINETICS : POTENTIAL ENERGY OF REACTION GRAPH SLIDE#1 3/29/10 CH 17-18 100 kJ 90 kJ 50 kJ 60 kJ 70 kJ 80 kJ 40 kJ 30 kJ 10 kJ 20 kJ THIS LINE REPRESENTS THE POTENTIAL ENERGY CONTENT OF THE ACTIVATED COMPLEX DURING THE REACTION. THE ACTIVATED COMPLEX IS AN UNSTABLE, HIGHLY ENERGISED TRANSIENT STATE, BOTH THE FORWARD AND REVERSE REACTIONS MUST TRANSITION THROUGH THIS STATE. THIS LINE REPRESENTS THE POTENTIAL ENERGY CONTENT OF THE PRODUCTS AFTER THE REACTION. THIS LINE REPRESENTS THE POTENTIAL ENERGY CONTENT OF THE REACTANTS BEFORE THE REACTION.

  2. KINETICS : POTENTIAL ENERGY OF REACTION GRAP SLIDE#23/2/07 100 kJ 90 kJ 50 kJ 60 kJ 70 kJ 80 kJ 40 kJ 30 kJ 10 kJ 20 kJ ACTIVATION ENERGY REVERSE ACTIVATION ACTIVATED COMPLEX P.E. REACTANTS P.E. PRODUCTS P.E.

  3. KINETICS : POTENTIAL ENERGY OF REACTION GRAPH 3/2/07 70 kJ 100 kJ 50 kJ 60 kJ 90 kJ 80 kJ 40 kJ 10 kJ 20 kJ 30 kJ Sum of P.E. reactants and forward activation energy = activated complex Sum of P.E. products and reverse activation energy = activated complex ACTIVATION ENERGY REVERSE ACTIVATION ACTIVATED COMPLEX P.E. REACTANTS P.E. PRODUCTS P.E.

  4. KINETICS : POTENTIAL ENERGY OF REACTION GRAPH SLIDE#4 3/2/07 70 kJ 90 kJ 50 kJ 60 kJ 100 kJ 80 kJ 40 kJ 30 kJ 20 kJ 10 kJ FORWARD ACTIVATION WITH CATALYST ACTIVATION ENERGY ACTIVATED COMPLEX P.E. REVERSE ACTIVATION REVERSE ACTIVATION WITH CATALYST CATALYZED ACTIVATED COMPLEX P.E. REACTANTS P.E. PRODUCTS P.E.

  5. KINETICS : POTENTIAL ENERGY OF REACTION GRAPH SLIDE 5 3/2/07 100 kJ 90 kJ 50 kJ 60 kJ 70 kJ 80 kJ 40 kJ 30 kJ 10 kJ 20 kJ ACTIVATION ENERGY REVERSE ACTIVATION ACTIVATED COMPLEX P.E. ∆H(-) HEAT OF REACTION PRODUCTS P.E.

  6. KINETICS : POTENTIAL ENERGY OF REACTION GRAPH SLIDE 6 3/2/07 70 kJ 100 kJ 50 kJ 60 kJ 90 kJ 80 kJ 40 kJ 10 kJ 20 kJ 30 kJ ACTIVATED COMPLEX P.E. ACTIVATION ENERGY REVERSE ACTIVATION PRODUCTS P.E. ∆H(+) HEAT OF REACTION REACTANTS P.E.

  7. U DO IT NOW – PRACTICE IN GROUPS 1) What is the value of ∆H (kJ) in the reaction shown in the slide #1, show draw the curve and show arrows. 2) What is the value of THE FORWARD AND REVERSE ACTIVATION ENERGY (kJ) IN SLIDE #1, show arrow addition equalities. 3) What is the value of THE ACTIVATED COMPLEX ENERGY LEVEL (kJ) IN SLIDE #1, show arrow addition equalities. 4) What is the value energy difference between the activation energy and catalyzed activation energy IN SLIDE #4.

More Related