3. Let N be the number of prey per square foot and H(N) be the number of prey attacked per day. Then the Hollings Type I
Posted: Tue Jun 07, 2022 6:59 am
3. Let N be the number of prey per square foot and H(N) be the
number of prey attacked per day. Then the Hollings Type II function
H(N) = 1.33N/1+0.086N describes the interaction between the
predatory stinkbug and Mexican bean beetle larvae.
Compute H0(5) and interpret.
What are some reasonable restrictions for this model?
4. The Michaelis-Menten curve is given by P(I) =
1.62I/(0.195I+8.29) - 3 where I is the net photosynthetic
oxygen evolution rate and P(I) is photosynthetic flux density.
Graph P(I) and estimate the slope of the graph at I = 4
micromoles of photons per square meter per second.
Compute P 0(I) and compare with your estimate.
number of prey attacked per day. Then the Hollings Type II function
H(N) = 1.33N/1+0.086N describes the interaction between the
predatory stinkbug and Mexican bean beetle larvae.
Compute H0(5) and interpret.
What are some reasonable restrictions for this model?
4. The Michaelis-Menten curve is given by P(I) =
1.62I/(0.195I+8.29) - 3 where I is the net photosynthetic
oxygen evolution rate and P(I) is photosynthetic flux density.
Graph P(I) and estimate the slope of the graph at I = 4
micromoles of photons per square meter per second.
Compute P 0(I) and compare with your estimate.