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28 year-old Painting Investments Worker Truman from Regina, usually spends time with pastimes for instance interior design, property developers in new launch ec Singapore and writing. Last month just traveled to City of the Renaissance. Rouché's theorem, named after Template:Link-interwiki, states that if the complex-valued functions f and g are holomorphic inside and on some closed contour K, with |g(z)| < |f(z)| on K, then f and f + g have the same number of zeros inside K, where each zero is counted as many times as its multiplicity. This theorem assumes that the contour K is simple, that is, without self-intersections. Rouché's theorem is an easy consequence of a stronger Symmetric Rouché's theorem described below.

Symmetric version

Theodor Estermann (1902–1991) proved in his book Complex Numbers and Functions the following relation: Let ${\displaystyle K\subset G}$ be a bounded region with continuous boundary ${\displaystyle \partial K}$. Two holomorphic functions ${\displaystyle f,\,g\in {\mathcal {H}}(G)}$ have the same number of roots in ${\displaystyle K}$, if the strict inequality

${\displaystyle |f(z)-g(z)|<|f(z)|+|g(z)|\qquad \left(z\in \partial K\right)}$

holds on the boundary ${\displaystyle \partial K}$.

The original Rouché's theorem then follows by setting ${\displaystyle f(z):=f(z)+g(z)}$ and ${\displaystyle g(z):=f(z)}$.

Usage

The theorem is usually used to simplify the problem of locating zeros, as follows. Given an analytic function, we write it as the sum of two parts, one of which is simpler and grows faster than (thus dominates) the other part. We can then locate the zeros by looking at only the dominating part. For example, the polynomial ${\displaystyle z^{5}+3z^{3}+7}$ has exactly 5 zeros in the disk ${\displaystyle |z|<2}$ since ${\displaystyle |3z^{3}+7|<32=|z^{5}|}$ for every ${\displaystyle |z|=2}$, and ${\displaystyle z^{5}}$, the dominating part, has five zeros in the disk.

Geometric explanation

It is possible to provide an informal explanation of Rouche's theorem.

Let C be a closed, simple curve (i.e., not self-intersecting). Let h(z) = f(z) + g(z). If f and g are both holomorphic on the interior of C, then h must also be holomorphic on the interior of C. Then, with the conditions imposed above, the Rouche's theorem in its original (and not symmetric) form says that

If |f(z)| > |h(z) − f(z)|, for every z in C, then f(z) and h(z) have the same number of zeros in the interior of C.

Notice that the condition |f(z)| > |h(z) − f(z)| means that for any z, the distance from f(z) to the origin is larger than the length of h(z) − f(z), which in the following picture means that for each point on the blue curve, the segment joining it to the origin is larger than the green segment associated with it. Informally we can say that the blue curve f(z) is always closer to the red curve h(z) than it is to the origin.

The previous paragraph shows that h(z) must wind around the origin exactly as many times as f(z). The index of both curves around zero is therefore the same, so by the argument principle, f(z) and h(z) must have the same number of zeros inside C.

One popular, informal way to summarize this argument is as follows: If a person were to walk a dog on a leash around and around a tree, and if the length of the leash is less than the minimum radius of the walk, then the person and the dog go around the tree an equal number of times.

Applications

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In 12 months 2013, c ommercial retails, shoebox residences and mass market properties continued to be the celebrities of the property market. Models are snapped up in report time and at document breaking prices. Builders are having fun with overwhelming demand and patrons need more. We feel that these segments of the property market are booming is a repercussion of the property cooling measures no.6 and no. 7. With additional buyer's stamp responsibility imposed on residential properties, buyers change their focus to commercial and industrial properties. I imagine every property purchasers need their property funding to understand in value. Consider the polynomial ${\displaystyle z^{2}+2az+b^{2}}$ (where ${\displaystyle a>b>0}$). By the quadratic formula it has two zeros at ${\displaystyle -a\pm {\sqrt {a^{2}-b^{2}}}}$. Rouché's theorem can be used to obtain more precise positions of them. Since

${\displaystyle |z^{2}+b^{2}|\leq 2b^{2}<2a|z|}$ for every ${\displaystyle |z|=b}$,

Rouché's theorem says that the polynomial has exactly one zero inside the disk ${\displaystyle |z|<b}$. Since ${\displaystyle a+{\sqrt {a^{2}-b^{2}}}}$ is clearly outside the disk, we conclude that the zero is ${\displaystyle a-{\sqrt {a^{2}-b^{2}}}}$. This sort of arguments can be useful in locating residues when one applies Cauchy's Residue theorem.

Rouché's theorem can also be used to give a short proof of the Fundamental Theorem of Algebra. Let

${\displaystyle p(z)=a_{0}+a_{1}z+a_{2}z^{2}+\cdots +a_{n}z^{n},\quad a_{n}\neq 0\,}$

and choose ${\displaystyle R>0}$ so large that:

${\displaystyle |a_{0}+a_{1}z+\cdots +a_{n-1}z^{n-1}|\leq \sum _{j=0}^{n-1}|a_{j}|R^{n-1}<|a_{n}|R^{n}=|a_{n}z^{n}|{\text{ for }}|z|=R.}$

Since ${\displaystyle a_{n}z^{n}}$ has ${\displaystyle n}$ zeros inside the disk ${\displaystyle |z|<R}$ (because ${\displaystyle R>0}$), it follows from Rouché's theorem that ${\displaystyle p}$ also has the same number of zeros inside the disk.

One advantage of this proof over the others is that it shows not only that a polynomial must have a zero but the number of its zeros is equal to its degree (counting, as usual, multiplicity).

Another use of Rouché's theorem is to prove the open mapping theorem for analytic functions. We refer to the article for the proof.

Proof of symmetric form of Rouché's theorem

The hypothesis ensures both that ${\displaystyle f}$ and ${\displaystyle g}$ do not have any roots on the boundary ${\displaystyle \partial K}$ and that ${\displaystyle {\frac {f(z)}{g(z)}}}$ is not a negative real number for ${\displaystyle z\in \partial K}$. Thus the homotopy

${\displaystyle I(t):={\frac {1}{2\pi i}}\oint _{\partial K}{\frac {F'(z)}{F(z)+t}}dz}$

is well defined for ${\displaystyle t\geq 0}$, where ${\displaystyle F(z):={\frac {f(z)}{g(z)}}}$.

Clearly, ${\displaystyle I(t)\to 0}$ as ${\displaystyle t\to \infty }$. As ${\displaystyle I(t)}$ is continuous and integer valued, it follows that ${\displaystyle I(0)=0}$. By the argument principle, this winding number is given by

${\displaystyle 0={\frac {1}{2\pi i}}\oint _{\partial K}{F'(z) \over F(z)}\,dz=N_{F}(K)-P_{F}(K)}$

where N_F(K) is the number of zeros of F inside K, P_F(K) is the number of poles inside K. Hence N_F = P_F. But F is the ratio of two holomorphic functions f and g inside K, and so the zeros are those of f and the poles are the zeros of g (after canceling out the common zeros of f and g). That is,

${\displaystyle 0=N_{F}(K)-P_{F}(K)=N_{f}(K)-N_{g}(K),\,}$

as required.

See also

• Hurwitz's theorem (complex analysis)
• Sturm's theorem
• Rational root theorem
• Properties of polynomial roots
• Riemann mapping theorem

References

• 20 year-old Real Estate Agent Rusty from Saint-Paul, has hobbies and interests which includes monopoly, property developers in singapore and poker. Will soon undertake a contiki trip that may include going to the Lower Valley of the Omo.
  
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• 20 year-old Real Estate Agent Rusty from Saint-Paul, has hobbies and interests which includes monopoly, property developers in singapore and poker. Will soon undertake a contiki trip that may include going to the Lower Valley of the Omo.
  
  My blog: http://www.primaboinca.com/view_profile.php?userid=5889534

External links

Module for Rouche’s Theorem by John H. Mathews