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The sets S and E are defined as given be...

The sets S and E are defined as given below:
`S={(x,y): |x-3|lt1and|y-3|lt1}` and
`E={(x,y):4x^(2)+9y^(2)-32x-54y+109le0}`.
Show that `SsubE`.

Text Solution

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Graph of S
`because |x-3|lt1implies-1lt(x-3)lt1implies2ltxlt4`
Similarly, `|y-3|lt1implies2ltylt4`
So, S consists of all points inside the square (not on `xne2`, 4 and `yne2`, 4) bounded by the lines x = 2, y = 2, x = 4 and y = 4.
Graph of R
`because 4x^(2)+9y^(2)-32x-54y+109le0`
`implies 4(x^(2)-8x)+9(y^(2)-6y)+109le0`
`implies 4(x-4)^(2)+9(y-3)^(2)le36`
`implies ((x-4)^(2))/(3^(2))+((y-3)^(2))/(2^(2))le1`
So, E consists of all points inside and on the ellipse with centre (4, 3) and semi-major and semi-minor axes are 3 and 2, respectively.

From the above graph, it is evident that the double hatched (which is S) is within the region represented by E. i.e., `SsubE`
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