What is the equations of the tangents of the conic $x^2+4xy+3y^2-5x-6y+3=0$ which are parallel to the line $x+4y=0$ ?

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What is the equations of the tangents of the conic $x^2+4xy+3y^2-5x-6y+3=0$ which are parallel to the line $x+4y=0$ ?

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Answer 1 · 2017-05-13T07:43:35

$x+4y=5$ and $x+4y=8$

Explanation:

As $x+4y=0$ in slope intercept form is $y=-1/4x+0$ , slope of the line $x+4y=0$ is $-1/4$ .

Hence slope of tangents to the conic would also be $-1/4$ .

As slope of tangent is given by first derivative, let us find it using implicit differentiation.

We have $x^2+4xy+3y^2-5x-6y+3=0$ and therefore

$2x+4x((dy)/(dx))+4y+6y(dy)/(dx)-5-6(dy)/(dx)=0$

i.e. $(dy)/(dx)(4x+6y-6)=-(2x+4y-5)$

and $(dy)/(dx)=-(2x+4y-5)/(4x+6y-6)$

and as this should be $-1/4$ we have

$-(2x+4y-5)/(4x+6y-6)=-1/4$

or $8x+16y-20=4x+6y-6$

or $4x+10y-14=0$

or $x=-5/2y+7/2$

Putting this in equation of conic we get

$(-5/2y+7/2)^2+4(-5/2y+7/2)y+3y^2-5(-5/2y+7/2)-6y+3=0$

or $(-5y+7)^2+8(-5y+7)y+12y^2-10(-5y+7)-24y+12=0$

or $25y^2-70y+49-40y^2+56y+12y^2+50y-70-24y+12=0$

or $-3y^2+12y-9=0$ or $y^2-4y+3=0$ i.e. $y=1" or "3$

and the points are $x=1" or "-4$

and points are $(1,1)$ and $(-4,3)$

and tangents are $y-1=-1/4(x-1)$ i.e. $x+4y=5$

and $y-3=-1/4(x+4)$ i.e. $x+4y=8$

graph{(x+4y-8)(x+4y-5)(x^2+4xy+3y^2-5x-6y+3)=0 [-5.104, 4.896, -0.62, 4.38]}

Answer 2 · 2017-05-13T20:31:54

See below.

Explanation:

Calling $p=(x,y)$ we have a conic given by

$f(p)=x^2 + 4 x y + 3 y^2 - 5 x - 6 y + 3=0$

A tangent line to it with a given gradient $vec v_0$ can be written as

$L->p=p_0+lambda vec v_0$

where $p_0$ is the tangency point.

the conic tangent space is given by

$vec t = (-f_x,f_y) = (5 - 2 x - 4 y, -6 + 4 x + 6 y)$

so at the tangency point we must accomplish

$(5 - 2 x_0 - 4 y_0,4 x_0 + 6 y_0-6)= mu vec v_0$

here $vec v_0 = (-4,1)$

solving for $p_0$

${(x_0 = -1/2 (3 + 10 mu)),(y_0= 2 + (7 mu)/2):}$

Now analyzing $f@L$ we have

$f(p_0+lambda vec v_0) = 3/4 (1 + (2 lambda - 11 mu) (2 lambda + mu))=0$

and solving for $lambda$

$lambda = 1/2 (5 mu pm sqrt[36 mu^2-1])$

Now, the condition for tangency is $36 mu^2-1=0$ or

$mu = pm 1/6$

so we have two solutions

$L->{((-2/3, 17/12)+lambda (-4,1)),((-2/3, 17/12)+lambda (-4,1)):}$

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What is the equations of the tangents of the conic $x^2+4xy+3y^2-5x-6y+3=0$ which are parallel to the line $x+4y=0$ ?

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What is the equations of the tangents of the conic x^2+4xy+3y^2-5x-6y+3=0x^2+4xy+3y^2-5x-6y+3=0 which are parallel to the line x+4y=0x+4y=0?

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What is the equations of the tangents of the conic $x^2+4xy+3y^2-5x-6y+3=0$ which are parallel to the line $x+4y=0$ ?