Problem 3 Let T: M2x2(R) → M2x2(R) be the linear operator defined as a b За - 2с + 4d T с d -2a + 6c + 2d 4a + 2c + 3d [[::}[::||:) 0 1 0 0 Let B = denote the standard basis of M2x2(R). 0 0 0 0 1 0 0 1 a) Find [T]B. Determine the characteristic polynomial of [T)B, i.e. PT (A). Find the eigenval- ues of [T]B and determine the algebraic multiplicity of each eigenvalue. (Hint: Eigenvalues are -2, 0 and 7.) b) Determine a basis for each eigenspace ErT, (A) of (T]B and determine the geometric multiplic- ity of each eigenvalue. Find it in increasing order of the eigenvalues.

please send handwritten solution for part b

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Problem 3 Let T: Max2(R) → M2x2(R) be the linear operator defined as a b T с d За - 2с + 4d -2a + 6c + 2d 4a + 2c + 3d 1 0 0 1 0 0 0 0 Let B = denote the standard basis of M2x2(R). 0 0 0 0 1 0 0 1 a) Find [T]B. Determine the characteristic polynomial of [TB, i.e. PT(A). Find the eigenval- ues of [T)B and determine the algebraic multiplicity of each eigenvalue. (Hint: Eigenvalues are -2, 0 and 7.) b) Determine a basis for each eigenspace ET, (A) of (T]B and determine the geometric multiplic- ity of each eigenvalue. Find it in increasing order of the eigenvalues. c) Show that eigenvectors of [T)B exhibit an orthonormal basis of R4.