Integrate the function: $\sqrt {1-4x^2}$

Let $I=\int \sqrt {1-4x^2}dx=\int \sqrt{(1)^2-(2x)^2}dx$ Let 2x=t $\Rightarrow$ 2dx=dt ∴ $I = \frac{1}{2}\sqrt{(1)^2-(t)^2}dt$ It is known that, $\int \sqrt{a^2-x^2}dx=\frac{x}{2}\sqrt{a^2-x^2}+\frac{a^2}{2}\sin^{-1}\frac{x}{a}+C$ $\Rightarrow I=\frac{1}{2}\bigg[\frac{t}{2}\sqrt{1-t^2}+\frac{1}{2}\sin^{-1}t\bigg]+C$ = $\frac{t}{4}\sqrt{1-t^2}+\frac{1}{4}\sin^{-1}2x+C$ = $\frac{2x}{4}\sqrt{1-4x^2}+\frac{1}{4}\sin^{-1}2x+C$ = $\frac{x}{2}\sqrt{1-4x^2}+\frac{1}{4}\sin^{-1}2x+C$

Integrate the function: √1-4x2

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Integrals of Some Particular Functions:

∫1/(x² – a²) dx = (1/2a) log|(x – a)/(x + a)| + C
∫1/(a² – x²) dx = (1/2a) log|(a + x)/(a – x)| + C
∫1/(x² + a²) dx = (1/a) tan-1(x/a) + C
∫1/√(x² – a²) dx = log|x + √(x² – a²)| + C
∫1/√(a² – x²) dx = sin-1(x/a) + C
∫1/√(x² + a²) dx = log|x + √(x² + a²)| + C

These are tabulated below along with the meaning of each part.

Integrate the function: \(\sqrt {1-4x^2}\)

Solution and Explanation

Top CBSE CLASS XII Mathematics Questions

Top CBSE CLASS XII integral Questions

Top CBSE CLASS XII Questions

Concepts Used:

Integrals of Some Particular Functions

Integrals of Some Particular Functions: