Show that projection of a line, from any finite point P, onto a parallel line is...

True or False If A is the matrix of a projection onto a line L in...

True or False If A is the matrix of a projection onto a line L in R 2 and the vector x in R 2 is not the zero vector, then the vector x − Ax is perpendicular to the vector x. If vectors u, v, x and y are vectors in R 7 such that u = 2v + 0x − 3y, then a basis for span(u, v, x, y) is {u, v, y}.

(1 point) What is the matrix P=(Pij) for the projection of a vector b∈R3 onto the...

(1 point) What is the matrix P=(Pij) for the projection of a vector b∈R3 onto the subspace spanned by the vector a=

Find vector and parametric equations for: a) the line that passes through the point P(9,-9,6) parallel...

Find vector and parametric equations for: a) the line that passes through the point P(9,-9,6) parallel to the vector u = <3,4,-2> b) the line passing through the point P(6,-2,6) parallel to the line x=2t, y = 2 - 3t, z = 3 +6t c) the line passing through the point P(5, -2,1) parallel to the line x = 3 - t, y = -2 +4t, z = 4 + 8t

Prove that a disjoint union of any finite set and any countably infinite set is countably...

Prove that a disjoint union of any finite set and any countably infinite set is countably infinite. Proof: Suppose A is any finite set, B is any countably infinite set, and A and B are disjoint. By definition of disjoint, A ∩ B = ∅ Then h is one-to-one because f and g are one-to one and A ∩ B = 0. Further, h is onto because f and g are onto and given any element x in A ∪...

Prove Cantor’s original result: for any nonempty set (whether finite or infinite), the cardinality of S...

Prove Cantor’s original result: for any nonempty set (whether finite or infinite), the cardinality of S is strictly less than that of its power set 2S . First show that there is a one-to-one (but not necessarily onto) map g from S to its power set. Next assume that there is a one-to-one and onto function f and show that this assumption leads to a contradiction by defining a new subset of S that cannot possibly be the image of...

Let A be a finite set and let f be a surjection from A to itself....

Let A be a finite set and let f be a surjection from A to itself. Show that f is an injection. Use Theorem 1, 2 and corollary 1. Theorem 1 : Let B be a finite set and let f be a function on B. Then f has a right inverse. In other words, there is a function g: A->B, where A=f[B], such that for each x in A, we have f(g(x)) = x. Theorem 2: A right inverse...

Let A be a finite set and f a function from A to A. Prove That...

Let A be a finite set and f a function from A to A. Prove That f is one-to-one if and only if f is onto.

Consider the line which passes through the point P(4, 5, 4), and which is parallel to...

Consider the line which passes through the point P(4, 5, 4), and which is parallel to the line x=1+3t, y=2+6t, z=3+1t Find the point of intersection of this new line with each of the coordinate planes: xy-plane: ( , ,  ) xz-plane: ( , ,  ) yz-plane: ( , ,  )

1) Let a = 〈4,−5,−2〉 and b = 〈2,−4,−5〉 Find the projection of b onto a....

1) Let a = 〈4,−5,−2〉 and b = 〈2,−4,−5〉 Find the projection of b onto a. proj a b= 2) Find the area of a triangle PQR, where P=(−2,−4,0), Q=(1,2,−1), and R=(−3,−6,5) 3) Complete the parametric equations of the line through the points (7,6,-1) and (-4,4,8) x(t)=7−11 y(t)= z(t)=

A. Line l passes through point (−4,47) and line p is the graph of y+1=−5(x+5). If...

A. Line l passes through point (−4,47) and line p is the graph of y+1=−5(x+5). If l is parallel to p what is the equation of l? B.  Line l passes through point (4,4) and line p is the graph of 2x−3y=10. If l⊥p, what is the equation of l?