Two line whose are `(x-3)/(2)=(y-2)/(3)=(z-1)/(lambda) and (x-2)/(3)=(y-3)/(2)=(z-2)/(3)` lie in the same plane, then,
Q. The value of `sin^(-1)sinlambda` is equal to

Two lines whose equations are (x-3)/(2)=(y-2)/(y-2)=(z-1)/(z) and (x-2)/(3)=(y-3)/(2)=(z-2)/(3) lie in the same then

Lines whose equation are (x-3)/2=(y-2)/3=(z-1)/(lamda) and (x-2)/3=(y-3)/2=(z-2)/3 lie in same plane, then. The value of sin^(-1)sinlamda is equal to

Two line whose are (x-3)/(2)=(y-2)/(3)=(z-1)/(lambda) and (x-2)/(3)=(y-3)/(2)=(z-2)/(3) lie in the same plane, then, Q. Point of intersection of the lines lies on

Two line whose are (x-3)/(2)=(y-2)/(3)=(z-1)/(lambda) and (x-2)/(3)=(y-3)/(2)=(z-2)/(3) lie in the same plane, then, Q. Angle between the plane containing both the lines and the plane 4x+y+2z=0 is equal to

If the lines (x-1)/(1)=(y-3)/(1)=(z-2)/(lambda) and (x-1)/(lambda)=(y-3)/(2)=(z-4)/(1) intersect at a point, then the value of lambda^(2)+4 is equal to

Lines whose equation are (x-3)/2=(y-2)/3=(z-1)/(lamda) and (x-2)/3=(y-3)/2=(z-2)/3 lie in same plane, then. Angle between the plane containing both lines and the plane 4x+y+2z=0 is

Lines (x-1)/2 = (y-2)/3 = (z-3)/4 and (x-2)/3 = (y-3)/4 = (z-4)/5 lie on the plane

The lines (x)/(1)=(y)/(2)=(z)/(3)and(x-1)/(-2)=(y-2)/(-4)=(z-3)/(-6) are