Let A be a matrix of size (112×105). If the rank of A is 58, then...

Let A,B be a m by n matrix, Prove that |rank(A)-rank(B)|<=rank(A-B)

Let A,B be a m by n matrix, Prove that |rank(A)-rank(B)|<=rank(A-B)

Let V be the subspace of all vectors in R 5 , such that x1 −...

Let V be the subspace of all vectors in R 5 , such that x1 − x4 = x2 − 5x5 = 3x3 + x4 (a) Find a matrix A with that space as its Null space; What is the rank of A? b) Find a basis B1 of V ; What is the dimension of V ? (c) Find a matrix D with V as its column space. What is the rank of D? To find the rank of...

Let A be square matrix prove that A^2 = I if and only if rank(I+A)+rank(I-A)=n

Let A be square matrix prove that A^2 = I if and only if rank(I+A)+rank(I-A)=n

Let A be an nxn matrix. Show that if Rank(A) = n, then Ax = b...

Let A be an nxn matrix. Show that if Rank(A) = n, then Ax = b has a unique solution for any nx1 matrix b.

Let A be a matrix with an eigenvalue λ that has an algebraic multiplicity of k,...

Let A be a matrix with an eigenvalue λ that has an algebraic multiplicity of k, but a geometric multiplicity of p < k, i.e. there are p linearly independent generalised eigenvectors of rank 1 associated with the eigenvalue λ, equivalently, the eigenspace of λ has a dimension of p. Show that the generalised eigenspace of rank 2 has at most dimension 2p.

Let A m×n be a given matrix with m > n. If the time taken to...

Let A m×n be a given matrix with m > n. If the time taken to compute the determinant of a square matrix of size j is j to the power 3, find upper bound on the a) total time taken to find the rank of A using determinants b) number of additions and multiplications required to determine the rank using the elimination procedure.

Let A be an m × n matrix, and Q be an n × n invertible...

Let A be an m × n matrix, and Q be an n × n invertible matrix. (1) Show that R(A) = R(AQ), and use this result to show that rank(AQ) = rank(A); (2) Show that rank(AQ) = rank(A).

A matrix A is symmetric if AT = A and skew-symmetric if AT = -A. Let...

A matrix A is symmetric if AT = A and skew-symmetric if AT = -A. Let Wsym be the set of all symmetric matrices and let Wskew be the set of all skew-symmetric matrices (a) Prove that Wsym is a subspace of Fn×n . Give a basis for Wsym and determine its dimension. (b) Prove that Wskew is a subspace of Fn×n . Give a basis for Wskew and determine its dimension. (c) Prove that F n×n = Wsym ⊕Wskew....

Find a basis for the null space of a matrix A. 2 2 0 2 1...

Find a basis for the null space of a matrix A. 2 2 0 2 1 -1 2 3 0 Give the rank and nullity of A.

Report the lowest magnitude correlation in the intercorrelation matrix, including degrees of freedom, correlation coefficient, p value, and effect size. Interpret the effect size.

gendergpafinaltotalgenderPearson Correlation1.208*-.140-.143Sig. (2-tailed).033.156.145N105105105105gpaPearson Correlation.208*1.223*.199*Sig. (2-tailed).033.022.041N105105105105finalPearson Correlation-.140.223*1.881**Sig. (2-tailed).156.022.000N105105105105totalPearson Correlation-.143.199*.881**1Sig. (2-tailed).145.041.000N105105105105Report the lowest magnitude correlation in the intercorrelation matrix, including degrees of freedom, correlation coefficient, p value, and effect size. Interpret the effect size. Specify whether or not to reject the null hypothesis for this correlation.