The cartesian eqaution of the plane `r=(1+lambda-mu)hat(i)+(2-lambda)hat(j)+(3-2lambda+2mu)hat(k)`, is

The Cartesian equation of the plane vec r=(1+lambda-mu)hat i+(2-lambda)hat j+(3-2 lambda+2 mu)hat k is a.2x+y=5 b.2x-y=5 c.2x+z=5 d.2x-z=5

Find the shortest distance between the lines vec r=(1-lambda)hat i+(lambda-2)hat j+(3-2 lambda)hat k and vec r=(mu+1)hat i+(2 mu+1)hat k

Find the shortest distance between the following two lines: vec r=(1+lambda)hat i+(2-lambda)hat j+(lambda+1)hat kvec r=(2hat i-hat j-hat k)+mu(2hat i+hat j+2hat k)

For what value of lambda are the vectors lambda hat(i)+(1 + lambda) hat(j) + (1 + 2 lambda) hat( k) and (1-lambda) hat(i)+lambda hat(j) + 2 hat(k) perpendicular ?

Find the vector equation of the following planes in non- parametric form: (i) vec r=(lambda-2 mu)hat i+(3-mu)hat j+(2 lambda=mu)hat k.(ii)vec r=(2hat i+2hat j-hat k)+lambda(hat i+2hat j+3hat k)+mu(5hat i-2hat j+7hat k)

Find the vector equation of the following planes in non parametric form: -> r=(lambda-2mu) hat i+(3-mu) hat j+(2lambda+mu) hat k

Vector equation of the plane r=hat i-hat j+lambda(hat i+hat j+hat k)+mu(hat i2hat j+3hat k) in the scalar dot product form is

Find the vector equation of the plane vec r=2hat i+hat j-3hat k+lambda(2hat j+hat k)+mu(5hat i+2hat j+hat k) in scalar product form.

Find the point of intersection of the line : vec(r) = (hat(i) + 2 hat(j) + 3 hat(k) ) + lambda (2 hat(i) + hat(j) + 2 hat(k)) and the plane vec(r). (2 hat(i) - 6 hat(j) + 3 hat(k) ) + 5 = 0.