Classical Mechanics
Classical Mechanics
5th Edition
ISBN: 9781891389221
Author: John R. Taylor
Publisher: University Science Books
Question
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Chapter 12, Problem 12.27P

(a)

To determine

Show that the logistic function xf(f(x))=rx(xr1r)[r2x2r(r+1)x+r+1]. And also show that the fixed-point equation has four roots and the first two are x=0 and x=r1r  and the other roots are xa,xb=r+1±(r+1)(r3)2r.

(a)

Expert Solution
Check Mark

Answer to Problem 12.27P

The logistic function xf(f(x))=rx(xr1r)[r2x2r(r+1)x+r+1]. The fixed-point equation has four roots and the first two are x=0 and x=r1r  and the other roots are xa,xb=r+1±(r+1)(r3)2r.

Explanation of Solution

Given the logistic function

    f(x)=rx(1x)

Then,

f(f(x))=f(rx(1x))=r[rx(1x)][1rx(1x)]=rx[rrx][1rx+rx2]=rx[rr2x+r2x2rx+r2x2r2x3]=r2xr3x2+r3x3r2x2r3x3r3x4

xf(f(x))=x(r2xr3x2+r3x3r2x2r3x3r3x4)=(1r2)x+(r3+r2)x22r3x3+r3x4=rx[1r2r+(r2+r)x2r2x2+r2x3]=rx[(1r)(1+r)r+r(r+1)x2r2x2+r2x3]

=rx[(1r)(1+r)r+(r1+1)(r+1)x2r2x2+r2x3]=rx[(r1)r(r+1)+(r1)(r+1)x+(r+1)x2r2x2+r2x3]=rx[(x(r1)r)(r+1)+(r1)(r+1)x2r2x2+r2x3]=rx[(x(r1)r)(r+1)+r(r1)(r+1)rx2r(r+1)x2+2r2x2+r2x3]

=rx[(x(r1)r)(r+1)r(r+1)x[r+1r+x]r(r+1)x2+2rx2+r2x3]=rx[(x(r1)r)(r+1)[xr1r]r(r+1)x(r2+r2r)x2+r2x3]=rx[(x(r1)r)(r+1)[xr1r]r(r+1)x(r2r)x2+r2x3]=rx[(x(r1)r)(r+1)[xr1r]r(r+1)xr(r1)x2x(r2x2)]

=rx[(x(r1)r)(r+1)[xr1r]r(r+1)xx(r2x2)r1rr2x2]=rx[(x(r1)r)(r+1)[xr1r]r(r+1)x(xr1r)r2x2]=(rx)(x(r1)r)(r2x2r(r+1)x+r+1)

Hence proved that xf(f(x))=rx(xr1r)[r2x2r(r+1)x+r+1].

From the above equation, the four roots are

First root is,

rx=0x=0

The second root is,

xr1r=0x=r1r

The other roots are

r2x2r(r+1)x+r+1=0

Solving the above quadratic equation

x=[r(r+1)±[r(r+1)]24(r2)(r+1)]2r2=r(r+1)±r2(r+1)24r2(r+1)2r2=r(r+1)±r(r+1)24(r+1)2r2=r(r+1)±rr2+1+2r4r42r2

=(r+1)±r22r32rxa,xb=(r+1)±(r+1)(r3)2r

Conclusion:

The logistic function xf(f(x))=rx(xr1r)[r2x2r(r+1)x+r+1]. The fixed-point equation has four roots and the first two are x=0 and x=r1r  and the other roots are xa,xb=r+1±(r+1)(r3)2r.

(b)

To determine

Show that for r<3, there is no real two cycle.

(b)

Expert Solution
Check Mark

Answer to Problem 12.27P

For r<3 the roots will be complex and hence there is no real two cycle.

Explanation of Solution

The root of the function found in part (a) is

xa,xb=(r+1)±(r+1)(r3)2r

And if r<3 in the above equation, the value inside the root will become negative. And therefore, the roots will have a imaginary solution.

Conclusion:

Therefore, for r<3 the roots will be complex and hence there is no real two cycle.

(c)

To determine

The value of xa and xb for the case r=3.2 and verify the values shown in Figure 12.37.

(c)

Expert Solution
Check Mark

Answer to Problem 12.27P

The value of xa=0.7995 and xb=0.5130 for the case r=3.2 and the values shown in Figure 12.37 are the same.

Explanation of Solution

The root of the function found in part (a) is

xa,xb=(r+1)±(r+1)(r3)2r

Substitute 3.2 for r in the above equation to find the values of xa and xb

xa,xb=(3.2+1)±(3.2+1)(3.23)2(3.2)=4.2±(4.2)(0.2)6.4=4.2±0.91656.4

xa=0.7995 and xb=0.5130. The same results have been found in figure 12.37.

Conclusion:

The value of xa=0.7995 and xb=0.5130 for the case r=3.2 and the values shown in Figure 12.37 are the same.

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