The lines `r = i + j - k + lambda (3i - j) and`
` r = 4i - k + mu (2i + 3k)` intersect at the point

Consider the lines barr=(i+2j-2k)+lambda(i+2j) and barr=(i+2j-2k)+mu(2j-k) Find the equation of the line passing through the point of intersection of lines and perpendicular to both the lines.

Consider the lines barr=(i+2j-2k)+lambda(i+2j) and barr=(i+2j-2k)+mu(2j-k) Find the angles between the lines.

The angle between the line r = (i + 2j + 3k) + lambda (2i + 3j + 4k) and the plane r.(i + 2j -2k) = 0 is a) 0^(@) b) 60^(@) c) 30^(@) d) 90^(@)

Find the shortest distance between the skew lines ⃗ r = ( ⃗ i + 2 ⃗ j + ⃗ k ) + λ ( ⃗ i − ⃗ j + ⃗ k ) and ⃗ r = ( 2 ⃗ i − ⃗ j − ⃗ k ) + η ( 2 ⃗ i + ⃗ j + 2 ⃗ k )

Consider the lines barr=(i+2j-2k)+lambda(i+2j) and barr=(i+2j-2k)+mu(2j-k) Find a vector perpendicular to both the lines.

Given the straight lines barr=3i+2j-4k+lambda(i+2j+2k) and barr=5i-2k+mu(3i+2j+6k) Form the equation of the line perpendicular to the given lines and passing through the point(1,1,1)

Given the straight linrs barr=3i+2j-4k+lambda(i+2j+2k) and barr=5i-2k+mu(3i+2j+6k) Find the angle between the lines.

Given the straight linrs barr=3i+2j-4k+lambda(i+2j+2k) and barr=5i-2k+mu(3i+2j+6k) Obtain the unit vector perpendicular to both the lines.

Consider the pair of lines barr=3i+4j-2k+lambda(-i+2j+k) …. L_1 , barr=i-7j-2k+mu(i+3j+2k) …. L_2 Find one point each on lines L_1 and L_2 .

Consider the pair of lines barr=3i+4j-2k+lambda(-i+2j+k) …. L_1 , barr=i-7j-2k+mu(i+3j+2k) …. L_2 Find one point each on lines L_1 and L_2 . Find the distance between those points.