a n}fd|z" PNm/m26|1|keny|1|Page=Temperature_Experiment:|What is the optimal temperature range for this enzyme, according to the simulation?2634033|2|dshaffer|1|Page=pH_Experiment:|Ph exper3331|3|dshaffer|16|Page=pH_Experiment:|pH of 6 - 7.53128|3|dshaffer|26|Page=Temperature_Experiment:|25 - 35 C2824|1|keny|3|Page=Summary_of_Experiments:|How would you expect the model results to be similar to observations of an actual organism in the environment?2422|1|keny|2|Page=Summary_of_Experiments:|How might too high a fever be lethal to humans?2220|1|keny|1|Page=Summary_of_Experiments:|How can the relationship you discovered between temperature and enzyme reaction rates explain the difference in speed of movement between exothermic and endothermic animals on a cold morning?2019|1|keny|1|Page=Enzyme_Concentration_Experiment:|How did the amount of available enzyme affect the enzyme reaction rate? Cite evidence from the model output.1917|1|keny|2|Page=pH_Experiment:|Describe the relationship between pH and enzyme reaction rates which you discovered above. 1715|1|keny|2|Page=Temperature_Expirement:|Describe the relationship between temperature and enzyme reaction rates which you discovered above. 1513|1|keny|2|Page=Introduction:|Compare the initial numbers of hydrogen peroxide, water and oxygen molecules to the final numbers of all three. How do these numbers demonstrate the balanced equation 2H2O2 ---> 2H2O + O2 ?1311|1|keny|1|Page=Introduction:|Examine each of the four graphs. Referring to the Graph Interpretation Guidelines, describe in full, each graph a) Hydrogen Peroxide b) Water c) Oxygen d) Catalytic Rate11keny4omcaZX!y34|1|keny|3|Page=Temperature_Experiment:|Why does the reaction slow dramatically after about 3 minutes ?3427|1|keny|2|Page=Temperature_Experiment:|Describe the relationship between temperature and enzyme reaction rates which you discovered above. 2732|3|dshaffer|17|Page=pH_Experiment:|As this does that3230|2|dshaffer|1|Page=Temperature_Experiment:|temp3029|3|dshaffer|27|Page=Temperature_Experiment:|as bla bla blah2925|1|keny|6|Page=Summary_of_Experiments:|How would you expect the model results to be different from observations of an actual organism in its environment?2523|1|keny|5|Page=Summary_of_Experiments:|Given the relationship between pH and enzyme reaction rates which you discovered above, why do you suppose aquatic organisms are very sensitive to changes in pH (eg., acid rain)? 2321|1|keny|4|Page=Summary_of_Experiments:|How might the human body use higher temperatures, such as a fever, to fight off a virus infection? 2118|1|keny|1|Page=Substrate_Experiment:|How did the amount of available substrate affect the enzyme reaction rate? Cite evidence from the model output.1816|1|keny|1|Page=pH_Experiment:|For what range of pH values is the rate of enzyme reaction the greatest (optimal)?1614|1|keny|1|Page=Temperature_Expirement:|What is the optimal temperature range for this enzyme, according to the simulation?1412|1|keny|1|Page=Introduction:|Examine each of the four graphs. Referring to the Graph Interpretation Guidelines, describe in full, each graph. a) Hydrogen Peroxide b) Water c) Oxygen d) Catalytic Rate12false3keny1