Answered: Let f: R R be defined by f((x, y)) = 7y… | bartleby

Elementary Linear Algebra (MindTap Course List)

Elementary Linear Algebra (MindTap Course List)

8th Edition

ISBN:9781305658004

Author:Ron Larson

Publisher:Ron Larson

Chapter7: Eigenvalues And Eigenvectors

Section7.CM: Cumulative Review

Problem 4CM

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Question

Let f: R
R be defined by f((x, y)) = 7y - 3x - 3. Is f a linear transformation?
a. f((x₁, y₁) + (x₂, Y₂)) =
etc.)
f((x₁, y₁) + f((x₂, y₂)) =
+
Does f((x1, y₁) + (x2, Y2 )) = f ((x₁, №₁ )) + f((x2, №₁)) for all (x₁, №₁), (x2, Y₂ ) ER ²?
choose
b. f (c(x, y)) =
c(f((x, y))) =
Does f(c(x, y)) = c(f ((x, y))) for all c ER and all (x, y) ER ²?
choose
c. Is f a linear transformation? choose
. (Enter x₁ as x1,
<

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Find the kernel of the linear transformation T:R4R4, T(x1,x2,x3,x4)=(x1x2,x2x1,0,x3+x4).
Each of J, K, L, M and N is a linear transformation from R2 to R². These functions are given as follows: Jx1, х2) %3D (Зхі — 5х2, —6х1 + 10x), K(x1, x2) = (-V3x2, 3x1), L(x1, x2) = (x2, –x1), M(x1, x2) = (Зх1 + 5х, бх1 — бх2), N(x1, x2) = (-v5x1, v5x2). (a) In each case, compute the determinant of the transformation. . det J= ,det K ,det L= ,det M= ,det N
Define linear transformations S : P1 ---> P2 and T: P2---> P1 by S(a + bx) = a + (a + b )x + 2bx2 and T ( a + bx + cx2) = b + 2cx Compute (S 0 T)(3 + 2x - x2) and (S 0 T)(a + bx + cx2). Can you compute ( T 0 S) (a + bx) ? If so, compute it.
Does this equation define a linear transformation from R3 to R2?
The figure below shows the graph of the curve with equation y = f(x). The curve meets the y axis at A(0, 7) and has a minimum point at B(2, 3). y = f(x) A(0,7) B(2,3) X a) Write down the coordinates of the points A and B under the transformation y = f(x + 2). A = ( B = ( )
Define the linear transformation I by T(x) = Ax. Find ker(T), nullity(T), range(T), and rank(T). -3 3 A = 3 3 (a) ker(T) (b) nullity(T) (c) range(T) O {(-t, t): t is any real number} {(3t, t): t is any real number) R2 {(t, 3t): t is any real number} (d) rank(T)
How would I determine if this linear algebra function is a linear transformation?
If v = (v1, v2) and T(v) = v except T(0, v2) = (0,0) then T(v + u) = T(v) + T(u) showing that the transformation is linear.
Suppose T: R+→P3 is a linear transformation. Let u, v, and w be the vectors given below, and suppose that T(u) and T(v) are as given. Find T(w). Use the 'A' character to indicate an exponent, e.g. 5x^2-2x+1. -5 -5 V = -5 T(u) = -9x3+14x²-5x-12 T(v) = 25x³ –36x² -9x+4 -7 u = W = %3D T(w) = 0 %3D

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