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

The lines (x-2)/(1)=(y-3)/(2)=(z-4)/(3) and (x-1)/(-5)=(y-2)/(1)=(z-1)/(1) are

If the lines (x-2)/(1)=(y-4)/(4)=(z-6)/(k) and (x+1)/(3)=(y+3)/(5)=(z+5)/(7) are coplanar, then the value of k is

The lines (x-1)/(1)=(y-1)/(2)=(z-1)/(3) and (x-4)/(2)=(y-6)/(3)=(z-7)/(3) are coplanar. Their point of intersection is

The lines (x-3)/(1)=(y-1)/(2)=(z-3)/(-lambda) and (x-1)/(lambda)=(y-2)/(3)=(z-1)/(4) are coplanar, if value of lambda is

If lines (x+l)/(3)=(y+3)/(5)=(z+5)/(7) and (x-2)/(1)=(y-4)/(3)=(z-6)/(5) are coplanar, then l is equal to

Lines (x)/(1)=(y-2)/(2)=(z+3)/(3)" and "(x-2)/(2)=(y-6)/(3)=(z-3)/(4) are

The lines (x-1)/(3)=(y-2)/(4)=(z-3)/(5) and (x-1)/(2)=(y-2)/(3)=(z-3)/(4) are intersecting lines?? Also, give the point of intersection.

If the lines (x-1)/(2)=(y-1)/(lambda)=(z-3)/(0) and (x-2)/(1)=(y-3)/(3)=(z-4)/(1) are perpendicular, then lambda is