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Reducing to standard form obtain the co-...

Reducing to standard form obtain the co-ordinates of centre, the foci, the vertices, the endpoints of latera recta, the equation of the directrices and the eccentricity of the following ellipses: `9x^2+4y^2+36x-8y+4=0`

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Reducing to standard form obtain the co-ordinates of centre the foci the vertices the endpoints of latera recta the equation of the directrices and the eccentricity of the following ellipses: 3x^2+4y^2+6x+8y-5=0

Reducing to standard form obtain the co-ordinates of centre, the foci, the vertices, the end points of latera recta, the equation of the directrices and the eccentricity of the following ellipses: 4x^2+8y^2+4x+24y-13=0

Reducing to standard form obtain the co-ordinates of centre the foci the vertices the endpoints of latera recta the equation of the directrices and the eccentricity of the following ellipses: 2x^2+3y^2-12x+24y+60=0

Reducing to standard form obtain the co-ordinates of the centre the vertices the foci the endpoints of conjugate axis, the endpoints of latera recta the equation of directrices and the eccentricity of the following hyperbola : x^2-2y^2-6x-4y+5=0

Reducing to standard form obtain the co-ordinates of the centre the vertices the foci the endpoints of conjugate axis, the endpoints of latera recta the equation of directrices and the eccentricity of the following hyperbola : 9y^2-4x^2-90y+189=0 .

Reducing to standard form obtain the co-ordinates of the centre the vertices the foci the end points of conjugate axis, the end points of latera recta the equation of directrices and the eccentricity of the following hyperbola : 49x^2-4y^2-98x+48y-291=0

Reducing to standard form obtain the co-ordinates of the centre the vertices the foci the end points of conjugate axis, the end points of latera recta the equation of directrices and the eccentricity of the following hyperbola : 3x^2-2y^2-4y-26=0 .

Reducing to standard form obtain the co-ordiante of the vertes focus , end points of the latus rectum the length of latus retum the equation of axis and directrix of the following parabolas: x^2+x+y+1=0

Reducing to standard form obtain the co-ordiante of the vertes focus , end points of the latus rectum the length of latus retum the equation of axis and directrix of the following parabolas: 2x^2-4y+6x-3=0

Reducing to standard form obtain the co-ordiante of the vertes focus , end points of the latus rectum the length of latus retum the equation of axis and directrix of the following parabolas: y^2-4x+4y-1=0

MBD PUBLICATION-CONIC SECTIONS-QUESTION BANK
  1. Reducing to standard form obtain the co-ordinates of centre, the foci,...

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  2. Reducing to standard form obtain the co-ordinates of centre the foci t...

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  3. Reducing to standard form obtain the co-ordinates of centre, the foci,...

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  4. Reducing to standard form obtain the co-ordinates of the centre the ve...

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  5. Reducing to standard form obtain the co-ordinates of the centre the ve...

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  6. Reducing to standard form obtain the co-ordinates of the centre the ve...

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  7. Reducing to standard form obtain the co-ordinates of the centre the ve...

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  8. Prove that the equation of the parabola whose vertex and focus are at ...

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  9. Find the locus of the points of trisection of a double ordinate of the...

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  10. Prove that a double ordinate of the parabola y^2=4ax of length 8a subt...

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  11. Find the angle which a double ordinate of length 2a subtends at its ve...

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  12. Obtain the equations of the tangent and normal of the parabola y^2=4ax...

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  13. Find the equation of tangents and normals to the parabola y^2=4ax at t...

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  14. Find the equtions of tangent and normals to the parabola y^2=4ax at th...

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  15. Show that the tangent to the parabola y^2=4ax at the point (a' , b') i...

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  16. A tangent to the parabola y^2=8x makes an angle 45^@ with the line 3x-...

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  17. Prove that for all values of k the line y=k(x+a)+a/k is a tangent to t...

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  18. obtain the condition that the line lx+my+n=0 will touch the parabola y...

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  19. Prove that the line 4x-2y-1=0 touches the parabola whose focus it at (...

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  20. If (-2,0) and (2,0) are the two vertices of a triangle with perimeter ...

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