Let \[ f(x)=\int \frac{7x^{10}+9x^8}{(1+x^2+2x^9)^2}\,dx \] and $f(1)=\frac14$. Given that
and $B=\operatorname{adj}(\operatorname{adj}A)$, if $|B|=81$, find the value of $\alpha^2$ (where $\alpha\in\mathbb{R}$).
Let \[ f(x)=\int \frac{7x^{10}+9x^8}{(1+x^2+2x^9)^2}\,dx \] and $f(1)=\frac14$. Given that
and $B=\operatorname{adj}(\operatorname{adj}A)$, if $|B|=81$, find the value of $\alpha^2$ (where $\alpha\in\mathbb{R}$).
Show Hint
- 2
- 4
- 6
- 8
The Correct Option is D
Solution and Explanation
Step 1: Use property of adjoint.
For a $3\times3$ matrix, \[ |\operatorname{adj}(\operatorname{adj}A)|=|A|^{(3-1)^2}=|A|^4 \] Given $|B|=81$, \[ |A|^4=81 \Rightarrow |A|=3 \] Step 2: Evaluate $f(1)$.
\[ f'(x)=\frac{7x^{10}+9x^8}{(1+x^2+2x^9)^2} \] Let $u=1+x^2+2x^9$
\[ f(x)=-\frac{1}{u}+C \] Using $f(1)=\frac14$: \[ -\frac{1}{1+1+2}+C=\frac14 \Rightarrow C=\frac12 \] Step 3: Compute determinant of $A$. 
\[ =0-0+1\left(4\cdot\frac14-\alpha^2\cdot\frac14\right) \] \[ =1-\frac{\alpha^2}{4} \] Step 4: Use $|A|=3$.
\[ 1-\frac{\alpha^2}{4}=3 \Rightarrow \alpha^2=8 \] Final conclusion.
The value of $\alpha^2$ is 8.
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