![Part 23 : Orthonormal Vectors, Orthogonal Matrices and Hadamard Matrix | by Avnish | Linear Algebra | Medium Part 23 : Orthonormal Vectors, Orthogonal Matrices and Hadamard Matrix | by Avnish | Linear Algebra | Medium](https://miro.medium.com/v2/resize:fit:770/1*PyYEWG1wxPQiFHXGdcfJpg.png)
Part 23 : Orthonormal Vectors, Orthogonal Matrices and Hadamard Matrix | by Avnish | Linear Algebra | Medium
![SOLVED: b: Construct the orthogonal basis of set T= V1,Vz, V3 for R3 Where V1 Vz V3 Express the vector y as a linear combination of the vectors in T: y = SOLVED: b: Construct the orthogonal basis of set T= V1,Vz, V3 for R3 Where V1 Vz V3 Express the vector y as a linear combination of the vectors in T: y =](https://cdn.numerade.com/ask_images/9f02e811ebcf42a9bf01c2b13c2ad4d1.jpg)
SOLVED: b: Construct the orthogonal basis of set T= V1,Vz, V3 for R3 Where V1 Vz V3 Express the vector y as a linear combination of the vectors in T: y =
![Linear Algebra] Given orthonormal basis of W, write a given vector as a vector of W plus a vector of W(perpendicular). : r/learnmath Linear Algebra] Given orthonormal basis of W, write a given vector as a vector of W plus a vector of W(perpendicular). : r/learnmath](https://external-preview.redd.it/XV52tT3iEy8kt2V5UCZ0RnqrogHD_YvBdmLV0mk2xC0.png?auto=webp&s=f9c2ccb22ba8775fe35ab703aac87fea6ad39601)