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A first test and exploration of your model

Abstract

Introduction

The two competitive species like Tiger and dinosaur as predator-prey, but its very rare to they hunting each other and most of the group of there newborn baby. They have their own territory and its rare to go out of there territory, but if the other animal are come in same territory, then they hunt on him. And in this report, we consider the T for Tiger’s populations and D for the Dinosaur’s populations and the set of the differential equations is:

dT/dt = k1T – k3TD

And

Dn = k2Dn – k4Tn Dn

k1T – k3TD = 0

0.022T – 0.001TD= 0

then,

k2D – k4TD = 0

T = 0, D = 0

T = 7.27272728, D = 22

After integrating with respect to time t,

Tanl = k1Tt – k3TDt

Here,

dT/dt = k2T – k4TD

Danl = k2Dt – 0*TDt

Danl = k2Dt

The Competitive Hunter Model – Tigers and Dinosaurs in insight maker

Stock –

  • Tiger

  • Dinosaur Birth Rate

  • Dinosaur Birth Rate

  • Dinosaur Deaths

Competitive Hunter model of the Tiger and Dinosaur:

Fig 2

Tiger Births:

Fig 4

Tiger Deaths:

Fig 6

Dinosaur Births:

Fig 8

Dinosaur Deaths:

Fig 10

A first test and exploration of your model

When the death rate of Dinosaur and Tiger is zero, then the configuration of –

Fig 12

A second test, looking for equilibrium values

When the death rate of Dinosaur and Tiger is non-zero, then the configuration of –

Tiger Death Rate:

Fig 15

Graph when death rate of Dinosaur and Tiger is non-zero:

Fig 16

Conclusion

References

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