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UPSC 2025 Maths Optional Paper 1 Q1e — Step-by-Step Solution

10 marks · Section A

Cone · Analytic Geometry · asked 14× in 13 yrs · Read the full method →

Question

Find the equation of the cone whose vertex is the point (1,1,0)(1, 1, 0) and whose guiding curve is y=0y = 0, x2+z2=4x^2 + z^2 = 4.

Technique

Treat the cone as the locus of generators (lines) through the vertex meeting the guiding curve: parametrise the line from the vertex, find where it meets the plane y=0y=0, and substitute into the curve equation.

Solution

Step 1 — Generator through vertex and a general point.

Let P=(X,Y,Z)P=(X,Y,Z) be a general point of the cone. The generator is the line through the vertex V=(1,1,0)V=(1,1,0) and PP:

(x,y,z)=(1,1,0)+t(X1,  Y1,  Z0).(x,y,z) = (1,1,0) + t\big(X-1,\; Y-1,\; Z-0\big).

Step 2 — Meet the plane of the guiding curve y=0y=0.

Set the yy-coordinate to 00:

1+t(Y1)=0    t=11Y(Y1).1 + t(Y-1) = 0 \;\Rightarrow\; t = \frac{1}{1-Y}\quad (Y\ne1).

At this tt, the xx- and zz-coordinates of the intersection point are

x=1+t(X1)=1+X11Y=(1Y)+(X1)1Y=XY1Y,x^* = 1 + t(X-1) = 1 + \frac{X-1}{1-Y} = \frac{(1-Y)+(X-1)}{1-Y} = \frac{X-Y}{1-Y}, z=tZ=Z1Y.z^* = t\,Z = \frac{Z}{1-Y}.

Step 3 — Impose the guiding curve x2+z2=4x^{*2}+z^{*2}=4.

(XY1Y)2+(Z1Y)2=4.\left(\frac{X-Y}{1-Y}\right)^2 + \left(\frac{Z}{1-Y}\right)^2 = 4.

Multiply through by (1Y)2(1-Y)^2:

(XY)2+Z2=4(1Y)2.(X-Y)^2 + Z^2 = 4(1-Y)^2.

Step 4 — Expand and simplify (rename X,Y,Zx,y,zX,Y,Z\to x,y,z):

x22xy+y2+z2=4(12y+y2)x^2 - 2xy + y^2 + z^2 = 4(1 - 2y + y^2) x22xy+y2+z2=48y+4y2x^2 - 2xy + y^2 + z^2 = 4 - 8y + 4y^2 x22xy3y2+z2+8y4=0.x^2 - 2xy - 3y^2 + z^2 + 8y - 4 = 0.

Answer

  x22xy3y2+z2+8y4=0.  \boxed{\;x^2 - 2xy - 3y^2 + z^2 + 8y - 4 = 0.\;}
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