Ifthe points `(1,1, lambda) and (-3,0,1)` are equidistant from the plane,`3x + 4y-12z + 13 = 0`, then `lambda` satisfiesthe equation

Show that the points (1, 1, 1) and (-3, 0, 1) are equidistant from the plane 3x+4y-12 z+13=0.

Show that the points (1, 1, 1) and (-3, 0, 1) are equidistant from the plane 3x+4y-12 z+13=0.

If the points (1,1,k) and (-3,0,1) are equidistant from plane 3x+4y-12z+13=0 , then k=

Show that the points (-3,0,1) and (1,1,1) are equidistant from the plane 3x+4y-12z+13=0 .

Show that the points (1,-1,3) and (3, 4, 3) are equidistant from the plane 5x +2y + -7z + 8 = 0.

If the points (1,1,k) and (-3,0,1) are equidistant from the plane barr.(3bari+4barj-12bark)+13=0 then k =

If the points (1, 1, lambda ) and (-3, 0, 1) be equidistant from the plane vecr.(3hati+4hatj-12hatk)+13=0 find the value of lambda .

Show that the points (1, 1, 1) and (-3, 0, 1) are equidistant from the plane barr *(3hati + 4hatj - 12hatk) + 13 = 0

If the points (1,\ 1,\ lambda)a n d\ (-3,\ 0,\ 1) be equidistant from the plane vec rdot((3 hat i+4 hat j-12 hat k)+13=0 find the value of lambdadot