Consider the planes P1 : x + 2y − 3z = 3 and P2 : 4x + y + z =
6.
(a) Find a set of parametric equations for the line of
intersection of the P1 and P2.
(b) Find an equation in the standard for the plane that is
perpendicular to the line of intersection of P1 and P2 (the one you
found in part (a)) and contains the point A(3, −1, 2).
Given two planes 3x − 2y + z = 1 and 2x + y − 3z = 3. (a). Find
the equation for the line that is the intersection of the two
planes. (b). Find the equation for the plane that is perpendicular
to the two planes.
Given two planes 3x − 2y + z = 1 and 2x + y − 3z = 3. (a). Find the equation for the line that is the intersection of the two planes. (b). Find the equation for the plane that is perpendicular to the two planes.
Find 8 decimal place approximation for all three solutions of
the function
x^3-4x+1
Use -2, 0, and 2 as first guesses, organizing data values in
side-by-side columns.