The equation of the plane passing through the lines `(x-4)(1) = (y-3)/(1) = (z-2)/(2) and ( x-3)/(1) = (y-2)/(-4) = z/5` is

The lines (x-2)/(1)=(y-3)/(2)=(z-4)/(0) is

If the lines (x-2)/(1) = (y-3)/(1) = (z-4)/(lamda ) and (x-1)/(lamda ) = (y-4)/(2) = ( z -5)/(1) intersect, then

Find the equation of a plane containing the lines (x-5)/(4)=(y-7)/(4)=(z+3)/(-5) and (x-8)/(7)=(y-4)/(1)=(z-5)/(3)

The line (x-2)/(1)=(y-3)/(1)=(z-4)/(-k) and (x-1)/(k)=(y-4)/(2)=(z-5)/(1) are coplanar if

Equation of plane containing the line (x-1)/(-3)=(y-3)/(2)=(z-2)/(1) and the point (0,-3,4) is

Equation of a plane which passes through the point of intersection of lines (x-1)/(3)=(y-2)/(1)=(z-3)/(2) and (x-3)/(1)=(y-1)/(2)=(z-2)/(3) and at greatest distance from the origin is

The lines (x-1)/(a) = (y-2)/(3) = (z-3)/(4) , (x-2)/(3) = (y-3)/(4) = (z-4)/(5) are coplanar. Then a=

The equation of the plane containing the line (x-1)/(2) = (y +1)/(-1) = (z-3)/(4) and perpendicular to the plane x + 2y + z = 12 is

The equation of the plane containing line (x-1)/(3)=(y+6)/(4)=(z+1)/(2) and parallel to the line (x-2)/(2)=(y-1)/(-3)=(z+4)/(5) is