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I am interested in constructing a bifurcation diagram for parameter a in the dynamical system given in the code below. I want to see how parameter changes affect the stability of the system. The answer in

bifurcation-diagrams-for-multiple-equation-systemsBifurcation diagrams for multiple equation systems

does not apply for Mathematica 8. The following code include the system of differential equations:

Derivative[1][x][t] == -10^12 x[t] - y[t], 
Derivative[1][y][t] == x[t] - 10^12 y[t] + a z[t], 
Derivative[1][z][t] == -a y[t], 
x[0] == y[0] == 0, z[0] == 1

Thanks

I am interested in constructing a bifurcation diagram for parameter a in the dynamical system given in the code below. I want to see how parameter changes affect the stability of the system. The answer in

bifurcation-diagrams-for-multiple-equation-systems

does not apply for Mathematica 8. The following code include the system of differential equations:

Derivative[1][x][t] == -10^12 x[t] - y[t], 
Derivative[1][y][t] == x[t] - 10^12 y[t] + a z[t], 
Derivative[1][z][t] == -a y[t], 
x[0] == y[0] == 0, z[0] == 1

Thanks

I am interested in constructing a bifurcation diagram for parameter a in the dynamical system given in the code below. I want to see how parameter changes affect the stability of the system. The answer in

Bifurcation diagrams for multiple equation systems

does not apply for Mathematica 8. The following code include the system of differential equations:

Derivative[1][x][t] == -10^12 x[t] - y[t], 
Derivative[1][y][t] == x[t] - 10^12 y[t] + a z[t], 
Derivative[1][z][t] == -a y[t], 
x[0] == y[0] == 0, z[0] == 1

Thanks

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I am interested in constructing a bifurcation diagram for parameter a in the dynamical system given in the code below. I want to see how parameter changes affect the stability of the system. The answer in

bifurcation-diagrams-for-multiple-equation-systems

does not apply for Mathematica 8. The following code include the system of differential equations:

Derivative[1][x][t] == -10^12 x[t] - y[t], 
Derivative[1][y][t] == x[t] - 10^12 y[t] + a z[t], 
Derivative[1][z][t] == -a z[t]y[t], 
x[0] == y[0] == 0, z[0] == 1

Thanks

I am interested in constructing a bifurcation diagram for parameter a in the dynamical system given in the code below. I want to see how parameter changes affect the stability of the system. The answer in

bifurcation-diagrams-for-multiple-equation-systems

does not apply for Mathematica 8. The following code include the system of differential equations:

Derivative[1][x][t] == -10^12 x[t] - y[t], 
Derivative[1][y][t] == x[t] - 10^12 y[t] + a z[t], 
Derivative[1][z][t] == -a z[t], 
x[0] == y[0] == 0, z[0] == 1

Thanks

I am interested in constructing a bifurcation diagram for parameter a in the dynamical system given in the code below. I want to see how parameter changes affect the stability of the system. The answer in

bifurcation-diagrams-for-multiple-equation-systems

does not apply for Mathematica 8. The following code include the system of differential equations:

Derivative[1][x][t] == -10^12 x[t] - y[t], 
Derivative[1][y][t] == x[t] - 10^12 y[t] + a z[t], 
Derivative[1][z][t] == -a y[t], 
x[0] == y[0] == 0, z[0] == 1

Thanks

1
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Bifurcation diagrams for system of equations

I am interested in constructing a bifurcation diagram for parameter a in the dynamical system given in the code below. I want to see how parameter changes affect the stability of the system. The answer in

bifurcation-diagrams-for-multiple-equation-systems

does not apply for Mathematica 8. The following code include the system of differential equations:

Derivative[1][x][t] == -10^12 x[t] - y[t], 
Derivative[1][y][t] == x[t] - 10^12 y[t] + a z[t], 
Derivative[1][z][t] == -a z[t], 
x[0] == y[0] == 0, z[0] == 1

Thanks