Operations on Functions f(x)=√(x+1) and g(x)=√(9-x²)

Operations on Functions

Question

Let \(f, g\) be two real functions defined by

\[ f(x)=\sqrt{x+1} \] \[ g(x)=\sqrt{9-x^2} \]

Describe each of the following functions :

(i) \(f+g\)
(ii) \(g-f\)
(iii) \(fg\)
(iv) \(\frac{f}{g}\)
(v) \(\frac{g}{f}\)
(vi) \(2f-\sqrt{5}g\)
(vii) \(f^2+7f\)
(viii) \(\frac{5}{g}\)

Solution

Given

\[ f(x)=\sqrt{x+1} \] \[ g(x)=\sqrt{9-x^2} \]

Domain of \(f(x)\):

\[ x+1\ge0 \] \[ x\ge -1 \]

Therefore,

\[ D_f=[-1,\infty) \]

Domain of \(g(x)\):

\[ 9-x^2\ge0 \] \[ x^2\le9 \] \[ -3\le x\le3 \]

Therefore,

\[ D_g=[-3,3] \]

Common domain:

\[ D_f \cap D_g=[-1,3] \]

(i) \(f+g\)

\[ (f+g)(x)=\sqrt{x+1}+\sqrt{9-x^2} \]

Domain:

\[ [-1,3] \]

(ii) \(g-f\)

\[ (g-f)(x)=\sqrt{9-x^2}-\sqrt{x+1} \]

Domain:

\[ [-1,3] \]

(iii) \(fg\)

\[ (fg)(x)=\sqrt{x+1}\sqrt{9-x^2} \]

Domain:

\[ [-1,3] \]

(iv) \(\frac{f}{g}\)

\[ \left(\frac{f}{g}\right)(x)=\frac{\sqrt{x+1}}{\sqrt{9-x^2}} \]

Since denominator cannot be zero,

\[ 9-x^2\ne0 \] \[ x\ne \pm3 \]

From common domain \([-1,3]\), only \(x=3\) is excluded.

Domain:

\[ [-1,3) \]

(v) \(\frac{g}{f}\)

\[ \left(\frac{g}{f}\right)(x)=\frac{\sqrt{9-x^2}}{\sqrt{x+1}} \]

Since denominator cannot be zero,

\[ x+1\ne0 \] \[ x\ne -1 \]

Domain:

\[ (-1,3] \]

(vi) \(2f-\sqrt5g\)

\[ (2f-\sqrt5g)(x)=2\sqrt{x+1}-\sqrt5\sqrt{9-x^2} \]

Domain:

\[ [-1,3] \]

(vii) \(f^2+7f\)

\[ (f^2+7f)(x)=(\sqrt{x+1})^2+7\sqrt{x+1} \] \[ =x+1+7\sqrt{x+1} \]

Domain:

\[ [-1,\infty) \]

(viii) \(\frac{5}{g}\)

\[ \left(\frac{5}{g}\right)(x)=\frac{5}{\sqrt{9-x^2}} \]

Denominator cannot be zero.

\[ 9-x^2\ne0 \] \[ x\ne \pm3 \]

Domain:

\[ (-3,3) \]

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