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Questions
Find the area of the region in the first quadrant enclosed by the x-axis, the line y = x and the circle x2 + y2 = 32.
Using integration, find the area of the region in the first quadrant enclosed by the x-axis, the line y = x and the circle x2 + y2 = 32.
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Solution 1
y = x ...(1)
x2 + y2 = 32 ...(2)
The region enclosed by y = x and x2 + y2 = 32 is shown in the following figure:
On solving (1) and (2) we find that the given line and circle meet at B(4, 4) in the first quadrant. Let us draw BM perpendicular to the x-axis.
Now, required area = area of triangle BOM + area of region BMAB
Area of triangle BOM `=int_0^4ydx=int_0^4xdx=1/2[x^2/2]_0^4=8.........(3)`
Area of region BMAB= `int_0^sqrt32ydx=int_0^sqrt32sqrt(32-x^2)`
`=[1/2xxsqrt(32-x^2)+1/2xx32xxsin^(-1)(x/sqrt32)]_4^sqrt32`
`=(1/2 xx sqrt32 xx 0+1/2xx 32 xx sin^(−1)(1))−(1/2 xx 4xx 4+1/2 xx 32 xx sin^ (−1)(1/sqrt2))`
`=8π−8−4π`
∴ Area of triangle BOM=4π−8 ... (4)
On adding (3) and (4), we have:
Required area =`8+4π−8=4π`
Solution 2
Put y = x in `x^2 + y^2 = 32`
`:. x^2 + x^2 = 32`
`2x^2 = 32`
`x^2 = 16`
x = 4
`A = int_0^4 y_"line" dx + int_4^(sqrt32) y_"circle" dx`
`A = int_0^4 xdx + int_4^(sqrt32) (sqrt(32-x^2))dx`
`= (x^2/2)_0^4 + int_4^(sqrt32) sqrt((sqrt32)^2 - x^2 )dx`
`= (8) + (x/2 sqrt(32-x^2) + 32/2 sin^(-1) (x/sqrt32))^(sqrt32)`
`= (8) + (0 + 16 xx pi/2 - (2sqrt16 + 16sin^(-1) (4/sqrt32)))`
`= 8 + 8pi - 8 - 16 sin^(-1) (1/sqrt2)`
`= 8pi - 16 xx pi/4 = 8pi - 4pi = 4pi sq unit`
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