-0-0). 0-0 a. Finds (-3) a. Find f b. Find the matrix of the linear transformation...
Consider the map defined A) Compute B) Verify that F is a linear transformation. C) Is F one-to-one (injective)? Justify your answer. D) Is F onto (surjective)? Justify your answer. E) Describe the kernel (null space) of F. F) Describe the image (what the book calls the range) of F. G) Find one solution to the equation H) Find all solutions to the equation G:P2 → P3 G(p(t) = P(dx F(t + + 5) We were unable to transcribe this...
b-c a (a) (5 points) Find a matrix representation for this linear transformation. (b) (3 points) What is the nullspace of this matrix? Write it as a span (e) (3 points) What is the column space of this matrix? Write it as a span.
Let X = {0, 1, 2} and Y = {0,1,2}. Now we define f={(0,1),(1,0),(2,1)] Please enter your answer as a sum of the following numbers (they are not mutually exclusive): • 1 ifff is a function f : X Y • 2 ifff is a function and it is also injective • 4ifff is a function and it is also surjective This means that your answer can be 0 (not a function), 1 (a function but neither injective or surjective)....
5. Let A = P(R). Define f : R → A by the formula f(x) = {y E RIy2 < x). (a) Find f(2). (b) Is f injective, surjective, both (bijective), or neither? Z given by f(u)n+l, ifn is even n - 3, if n is odd 6. Consider the function f : Z → Z given by f(n) = (a) Is f injective? Prove your answer. (b) Is f surjective? Prove your answer
A function f : A - B is said to be injective (or one-to-one) provided Va, a2 € A, f(a) = f(az) ► a1 = . A function g: A + B is said to be surjective (or onto) provided W6 € B, 3 some a € A such that g(a) = b. A function h: A → B is said to be bijective (or a bijection or a one-to-one correspondence) if it is both injective and surjective. The following...
Say whether the following function is injective, surjective, bijective, or none of the above (note: you can only select one option): Domain: A= = {1,2,3,4,5,6} Codomain: B = {u, V, W, X, y, z} f = {(3,w), (4,2), (1,y), (6,w), (5x), (2,u)} O Bijective O Surjective Injective O None
We say that an nxn matrix is skew-symmetric if A^T=-A. Let W be the set of all 2x2 skew-symmetric matrices: W = {A in m2x2(R) l A^T=-A}. (a) Show that W is a subspace of M2x2(R) (b) Find a basis for W and determine dim(W). (c) Suppose T: M2x2(R) is a linear transformation given by T(A)=A^T +A. Is T injective? Is T surjective? Why or why not? You do not need to verify that T is linear. 3. (17 points)...
How do I prove this function is not surjective? 3.) Let f: R-R, f(x)-x2+ x+1 and Show that f is not injective and not surjective Justify that g is bijective and find gt. PIR, Show all the wortky) Not Surtechive: fx) RB Surjective: ye(o,oo) hng (g) 8 gon)-es is bijecelive g(x)-ex+s
Find the matrix [T] C-B of the linear transformation T: VW with respect to the bases B and C of V and w, respectively. T: R2 + R3 defined by a + 2b -a b +[:] s={{ ;][-:} c-{{0}{} --13) [) CBT
1)Complete each of the following statements using the words “greater than”, “less than” or “equal to” a) The cardinality of the even numbers is _________________ the cardinality of the natural numbers. b) The cardinality of the natural numbers is _________________ the cardinality of the positive rational numbers. c) The cardinality of the natural numbers is _________________ the cardinality of the rational numbers. d) The cardinality of the real numbers is _________________ the cardinality of the natural numbers. e) The cardinality...