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The parametric representation (2+t^(2),2...

The parametric representation `(2+t^(2),2t+1)` represents

A

a parabola with focus at (2, 1)

B

a parabola with vertex at (2, 1)

C

an ellipse with centre at (2, 1)

D

none

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DIPTI PUBLICATION ( AP EAMET)-ELLIPSE-EXERCISE 1A
  1. If the normal at the end of latus rectum of an ellipse x^(2)//a^(2)+y^...

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  2. The slope of a common tangent to the ellipse x^(2)//a^(2)+y^(2)//b^(2)...

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  3. The parametric representation (2+t^(2),2t+1) represents

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  4. The points on the ellipse 2x^(2)+3y^(2)=6 whose eccentric angles diffe...

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  5. The equation of the tangent at a point theta=3pi//4 to the ellipse x^(...

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  6. The equation of the normal to the ellipse x^(2)//16+y^(2)//9=1 at the...

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  7. If x/a+y/b=sqrt(2) touches the ellipse x^(2)/a^(2)+y^(2)/b^(2)=1, then...

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  8. The distance of a point on the ellipse x^(2)//6+y^(2)//2=1 from the ce...

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  9. The eccentric angles of the extremities of latusrecta of the ellipse x...

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  10. The tangent and normal to the ellipse 4x^(2)+9y^(2)=36 at a point P on...

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  11. If alpha and beta are the eccentric angles of the ends of a focal chor...

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  12. The tangent at a point P(acos theta,bsin theta) on the ellipse (x^(2))...

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  13. The locus of the foot of perpandicular drawn from the centre of the e...

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  14. If P is a point on the ellipse of eccentricity e and A, A 1 are the ve...

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  15. P(theta) and D(pi/2+theta) are two points on the ellipse x^2/a^2+y^2/b...

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  16. P(theta) and D(pi/2+theta) are two points on the ellipse x^2/a^2+y^2/b...

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  17. The maximum number of normals that can be drawn from any point to an e...

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  18. The condition that the line lx + my + n= 0 to be a normal to the ellip...

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  19. The normal at a poitn P( theta) on the ellipse 5x^(2) +14y^(2) =70 ...

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  20. If the normal at theta on the hyperbola x^(2)//a^(2)-y^(2)//b^(2)=1 me...

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