The number of distinct real values of `lambda` for which the lines `(x-1)/(1)=(y-2)/(2)=(z+3)/(lambda^(2))` and `(x-3)/(1)=(y-2)/(lambda^(2))=(z-1)/(2)` are coplanar is

The number of distinct real values of lamda for which (x-1)/1=(y-2)/2=(z+3)/(lamda^(2)) and (x-3)/1=(y-2)/(lamda^(2))=(z-1)/2 are coplanar, is

The value of lambda for which the two lines (x-1)/(4)=(y-2)/(1)=(z)/(1)delta(x+7)/(lambda)=(y)/(lambda-5)=(z-lambda)/(2) are coplaner

What is the value of lambda for which the lines (x-1)/(2)=(y-3)/(5)=(z-1)/(lambda) and (x-2)/(3)=(y+1)/(-2)=(z)/(2) are prependicular to each other

The number of real values of k for which the lines (x)/(1)=(y-1)/(k)=(z)/(-1) and (x-k)/(2k)=(y-k)/(3k-1)=(z-2)/(k) are coplanar, is

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

Write the value of lambda for which the lines (x-3)/(-3)=(y+2)/(2lambda)=(z+4)/2a n d(x+1)/(3lambda)=(y-2)/1=(z+6)/(-5) are perpendicular to each other.

Find the value of lambda, so that the lines (x-1)/(1)=(y-2)/(2)=(z+lambda)/(3) and (x+1)/(2)=(y-1)/(3)=(z-3)/(1) are coplanar Also find the equation of the plane containing them.

If lines (x -1)/(2) = (y+1)/(3) = (z-1)/(4) and (x-3)/(1) =(y -lambda)/(2) = (z)/(1) intersect each other then lambda = …..