1. Chapter 12
THE PARABOLA
抛物线
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3. Definition:
A parabola is defined as the locus of a point which moves so that its distance from a fixed point is always equal to its distance from a fixed line.
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4. The fixed line, x=-a is called the directrix of the parabola.y
S is called the focus. M
P(x,y) O x
(-a,0)
S(a,0)
The fixed line, x=-a is called the directrix of the parabola.
x=-a
O is called the vertex of the parabola.
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5. Based on the definition,
PS=PM
This is the equation of the parabola.
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6. y x x y directrix is x=-a directrix is x=a focus is (-a,0)
focus is (a,0)
directrix is x=a
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7. y y x
focus is (0,a)
focus is (0,-a) x
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8. focus (0,0) x-axis 1 x=a x≤0 y∈R F(0,a) y=-a y-axis y=a y x≥0 y2 = 4ax
Graph
Eqn
focus
directrix
range
vertex
symmetry e
(0,0)
x-axis 1
F(-a,0)
x=a
x≤0
y∈R
F(0,a)
y=-a
y-axis
F(0,-a)
y=a l F y x O
x≥0
y∈R
y2 = 4ax
（a>0）
x=-a l F y x O
y2 = -4ax
（a>0） l F y x O
y≥0
x∈R
x2 = 4ay
（a>0） l F y x O
y ≤ 0
x∈R
x2 = -4ay
（a>0）

9. General parabola The general form of a parabola is :
Which is derived from the general conic equation and the fact that, for a parabola
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10. e.g. 1
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11. e.g p Ex12a (8)
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12. e.g p.156 Q 19
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14. e.g. 4
Find the equation of the parabola with focus (2,1) and directrix x+y=2.
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17. Equation of the tangent at (x’,y’) to the parabola
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18. Gradient of tangent at point (x’,y’)=2a/y’
Differentiating w.r.t x ,
Gradient of tangent at point (x’,y’)=2a/y’
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19. As (x’,y’) lies on the curve,
Equation of tangent is
As (x’,y’) lies on the curve,
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20. e.g. 5
Find the point of intersection of the tangent at the point (2,-4) to the parabola and the directrix. Given that the parabola is
Soln :
Comparing with the standard eqn. We have
a=2 .
Eqn of tangent at (2,-4) is
y(-4)=4(x+2)
x+y+2=0 .
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21. Parametric equations of a parabola
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22. is always satisfied by the values
The equation
is always satisfied by the values
The parametric coordinates of any point on the curve are
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23. e.g. 6 Find the parametric equations of the parabola (ii) a=-3,
Soln :
(i) a=3,
(ii) a=-3,
(iii) a=1,
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24. Focal chords
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25. A chord of a parabola is a straight line joining any two points on it and passing thru’ the focus S.X O
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26. Half the latus rectum is the semi-latus rectum.
The focal chord perpendicular to the axis of the parabola is called the latus rectum.
Half the latus rectum is the semi-latus rectum.
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27. e.g. 6 Find the length of the latus rectum of the locus .
Soln:
Focus is (6,0)
When x=6, y=12 or -12
Hence, latus rectum=24.
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28. A focal chord is drawn thru’ the point on the parabola .
e.g. 7
A focal chord is drawn thru’ the point
on the parabola
Find the coordinates of the other end of the chord.
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29. Soln: x F(a,0) Let the coordinates of Q be . y But n-t≠0P
Gradient of PF=gradient of FQ x
F(a,0) Q
But n-t≠0
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30. Hence, the coordinates of Q are .
Note :
The product of the parameters of the points at the extremities of a focal chord of a parabola is -1.
What?
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31. Tangent and Normal at the point to the parabola .
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32. Equation of tangent at this point is :
At the point ,
Equation of tangent at this point is :
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33. Gradient of normal at =-t Equation of normal is :
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34. Equation of a tangent in terms of its gradient
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35. i.e. The equation of the tangent at to the parabola , is
Writing the gradient 1/t, as m, this equation becomes :
i.e.
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36. Therefore , the point of contact of the tangent is .
We have
Therefore , the point of contact of the tangent is
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37. Remember this : For all values of m, the straight line
is a tangent to the parabola
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38. e.g. 8
Find the equations of the tangents from the point (2,3) to the parabola .
Soln:
We known, a=1
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39. The tangents from the point (2,3) are :
At (2,3)
The tangents from the point (2,3) are :
i.e. 2y=x+4
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40. Ans : 2y=x+4 and y=x+1 y=(1)x+1 i.e. y=x+1 5/7/2018 4:52:44 PM
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41. Miscellaneous examples on the parabola
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42. S is the focus of the parabola
e.g. 9
S is the focus of the parabola
and P is the point (-3,8). PS meets the parabola at Q and R. Prove that Q, R divide PS internally and externally in the ratio 5:3.
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43. Soln:
(-3,8) Q O S R
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46. e.g. 10
If the tangents at points P and Q on the parabola are perpendicular, find the locus of the midpoint of PQ.
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47. Soln: Gradient of tangent at P Gradient of tangent at Q
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48. If the mid-point of PQ is (x’,y’) then
(1)
(2)
Square the (2),
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49. So, the locus of the midpoint of PQ is
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50. e.g. 11
Prove that the two tangents to the parabola , which pass thru’ the point (-a,k), are at right angles.
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51. Soln: Tangent to the parabola is of this form :
This tangent passes thru’ (-a,k),
The roots of this eqn are also the gradients of the tangents.
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52. Hence,
i.e. the tangents from the point (-a,k) to the parabola are at right angles.
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96. http://chtanmaths.wordpress.com Email address : sun724@gmail.com
My math’s blog :
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