Let `P(1, 2, 3)` be a point in space and Q be a point on the line `(x-1)/(2)=(y-3)/(5)=(z-1)/(3)` such that PQ is parallel to `5x-4y+3z=1`. If the length of PQ is equal to k units, then the value of `k^(2)` is equal to

If the distance of point P(3, 2, 6) from the line (x-1)/(2)=(y-2)/(3)=(z-3)/(4) measured parallel to the plane 3x-5y+2z=5 is k, then then the value of k^(2) is equal to

Find the image of the point (0,2,3) in the line (x+3)/(5)= (y-1)/(2) = (z+4)/(3) .

If the line (x-1)/2=(y+3)/1=(z-5)/(-1) is parallel to the plane px + 3y - z + 5 = 0 , then the value of p -

If the line (x-1)/(5)=(y-3)/(2)=(z-3)/(2) intersects the curve x^(2)-y^(2)=k^(2), z=0 , then the value of 2k can be equal to

The image of the line (x)/(2)=(y-1)/(5)=(z+1)/(3) in the plane x+y+2z=3 meets the xz- plane at the point (a, b, c), then the value of c is equal to

Let A be the point (1,2,3) and B be a point on the line (x-1)/-2=(y+1)/3=(z-5)/4=k Then value of k such that line AB is perpendicular to the plane 4x+9y-18z=6 is

Find the length of the perpendicular from point (3,4,5) on the line (x-2)/2=(y-3)/5=(z-1)/3.

Find the distance of the point (-2, 3, -5) from the line (x+2)/1=(y-3)/2=z/3.

If the line (x-1)/(1)=(y-k)/(-2)=(z-3)/(lambda) lies in the plane 3x+4y-2z=6 , then 5|k|+3|lambda| is equal to

The equation of the plane passing through the poit of intersection of the lines (x-1)/(3)=(y-2)/(1)=(z-3)/(2),(x-3)/(1)=(y-1)/(2)=(z-2)/(3) and perpendicular to the line (x-2)/(2)=(y-3)/(3)=(z-2)/(1) is P = 0. If the distance of the point (1, 1, 3) from P = 0 is k units, then the value of (k^(2))/(2) is equal to