The cartesian equation of the line passing through the points `2i + j + 3k, -4i + 3j - k` is

The vector equation to the line passing through the points 2i + j + 3k, -4i + 3j - k is

The vector equation of the plane passing through the points i + 2j + 5k, -5j + k, -3i + 5j is

The Cartesian equation of the line passing through the point 2i -j +4k and parallel to the vector i+j-2k is

The cartesian equation of the line passing through the point (2, -1, 4) and parallel to the vector bar(i)+bar(j)-2bar(k) is

The equation of the plane passing through the points 3i-5j-k,-i+5j+7k and 3i-j+7k is

Equation of the plane passing through the points i+j-2k,2i-j+kandi+2j+k is

The Cartesian equation of the plane passing through the point (3,-2,-1) and parallel to the vectors vec b=i-2j+4k and vec c=3i+2j-5k

The vector equation of the plane passing through the point 2i + 2j - 3k and parallel to the vectors 3i + 3j - 5k, i + 2j + k is

A : The vector equation of the plane passing through the point 2i + 2j - 3k and parallel to the vectors 3i + 3j - 5k, i + 2j + k is r = 2i + 2j - 3k + s(3i + 3j - 5k) + t(i + 2j + k) R : The vector equation of the plane passing through the points a, b, c is r = (1 - s - t) a + sb + tc

A : The vector equation of the line passing through the point 2i + 3j - 4k and parallel to the vector 6 + 3j - 4k is r = (2i + 3j - 4k) + t(6i + 3j - 4k). R : The vector equation of the line passing through the point a and parallel to the vector b is r = a + tb