

Parabola
and Line

Construction of the tangent at the point on the parabola

Construction of the tangents from a point exterior to the parabola

Parabola and line, examples 





Construction of the tangent at the point on the parabola

As the vertex of the parabola is the midpoint of the line
segment whose endpoints are, the projection P_{1}'
of the given point to the axis of the parabola and the point
B
opposite it, draw the tangent through points B and P_{1}.


Construction of the tangents from a point exterior to the parabola

Draw the circle centered at the point A
outside the
parabola through the focus.

The circle intersects the directrix at
points, D_{1}
and D_{2}.

Tangents from the point
A
are then perpendicular
bisectors of the line segments, D_{1}F
and D_{2}F.

Thus, the tangency points,
P_{1}
and P_{2}
are equidistant from the focus and the directrix.





Parabola and line, examples 
Example:
Find the angle between tangents drawn at intersection points of a line and the parabola
y^{2} = 2px
if the line passes through the focus F(7/4,
0) and its slope
m =
4/3. 
Solution:
As F(p/2,
0)
then, p/2 =
7/4 and the equation
of the parabola y^{2} =
7x.

By plugging
m =
4/3 and
F(7/4,
0) into
the equation of the line
y

y_{1} =
m(x

x_{1})
obtained is


Intersections of the line and the parabola,





Substituting
coordinates of S_{1}
and S_{2}
in


we
get the equation of tangents, 


Slopes of tangents satisfy the perpendicularity
condition, 



Example:
Find the point on the parabola
y^{2} = 9x closest to the line
9x + 4y + 24 =
0. 
Solution:
The tangency point of the tangent parallel to
the given line is the closest point.

9x + 4y +
24 = 0
=> y =
(9/4)x

6, m_{t} =

9/4

The slope of the tangent must satisfy tangency
condition
of the parabola,

p = 2mc
<= m_{t} =

9/4, p
=
9/2

9/2 = 2 · (9/4)
· c
=>
c
= 
1

therefore, the
tangent t
:: y =
(9/4)x

1.

The solution
to the system of equations of the tangent and the parabola
gives the tangency point, that
is







Example:
Given is the polar
4x + y + 12 =
0 of the parabola
y^{2} = 4x, find coordinates of the pole and
write equations of the corresponding tangents. 
Solution:
Intersections of the polar and the parabola are the
tangency points of tangents drawn from the pole P.
Thus, by solving the system of equations of the polar and the parabola
we get the tangency points. 
(1) 4x + y +
12 =
0, (1) =>
(2) (4x

12)^{2} = 4x

(2) y^{2} =
4x
4x^{2}
+ 25x + 36 =
0,



Equation of the tangent at the point on the parabola,





The intersection of tangents is the pole P.
Therefore, we solve the system formed by their equations, 









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