Sample Problems for Midterm 2 1 True or False: 1.1 If V is a vector
... 1.18 Any transition matrix PS←T is non-singular. 1.19 Given three bases S1 , S2 , and S3 , we have that PS2 ←S1 · PS3 ←S2 = PS3 ←S1 . 1.20 If two matrices are row-equivalent, they they have the same row space. 1.21 If two matrices are column-equivalent, they they have the same row rank. 1.22 A linea ...
... 1.18 Any transition matrix PS←T is non-singular. 1.19 Given three bases S1 , S2 , and S3 , we have that PS2 ←S1 · PS3 ←S2 = PS3 ←S1 . 1.20 If two matrices are row-equivalent, they they have the same row space. 1.21 If two matrices are column-equivalent, they they have the same row rank. 1.22 A linea ...
The Cubic Formula
... so it was these simpler cubic equations that they were looking for solutions of. If they could find the solutions of equations of the form x3 + ax + b = 0 then they would be able to find the solutions of any cubic equation. Of the simpler cubic equations that they were trying to solve, there was an ...
... so it was these simpler cubic equations that they were looking for solutions of. If they could find the solutions of equations of the form x3 + ax + b = 0 then they would be able to find the solutions of any cubic equation. Of the simpler cubic equations that they were trying to solve, there was an ...
Polynomials for MATH136 Part A
... A monic polynomial is one where the leading coefficient is 1. Clearly every non-zero polynomial can be made monic by dividing it by its leading coefficient. Example 5: The polynomial 4x3 8x +1 has degree 3. Its leading coefficient is 4 and so it is not monic. However it can be expressed as 4 times ...
... A monic polynomial is one where the leading coefficient is 1. Clearly every non-zero polynomial can be made monic by dividing it by its leading coefficient. Example 5: The polynomial 4x3 8x +1 has degree 3. Its leading coefficient is 4 and so it is not monic. However it can be expressed as 4 times ...
LECTURE NOTES CHAPTER 2 File
... • Negative vector of a given vector has the same magnitude and the opposite direction. • Equal vectors have the same magnitude and direction. ...
... • Negative vector of a given vector has the same magnitude and the opposite direction. • Equal vectors have the same magnitude and direction. ...
