How to Study for an Algebra Test on Vectors and Matrices?

  • Thread starter Thread starter CGUE
  • Start date Start date
  • Tags Tags
    Studying Tips
CGUE
Messages
22
Reaction score
0
If you could offer any tips for studying for an Algebra test for tomorrow morning it would be great.
It covers:

Vectors:
  • Vector quantities and $\mathbb{R^n}$
  • $\mathbb{R^2}$ and analytic geometry
  • Points, line segments and lines. Parametric vector equations. Parallel lines.
  • Planes. Linear combinations and the span of two vectors. Planes though the origin.
  • Parametric vector equations for planes in $\mathbb{R^n}$. The linear equation form of a plane.

Matrices:

  • Introduction to systems of linear equations. Solution of 2 × 2 and 2 × 3 systems and geometrical interpretations.
  • Matrix notation. Elementary row operations.
  • Solving systems of equations via Gaussian elimination.
  • Deducing solubility from row-echelon form. Solving systems with indeterminate right
    hand side.
  • General properties of solutions to Ax = b.
  • Matrix operations.

No calculators are allowed and it goes for 20 minutes.
 
Last edited:
Physics news on Phys.org
tip: if the test is tomorrow morning, all studying should be pretty much completed before tonight. only mild review should be appropriate.

i say this now that the test is over so as not to upset you before the test, but to help on the next test.
 
mathwonk said:
tip: if the test is tomorrow morning, all studying should be pretty much completed before tonight. only mild review should be appropriate.

i say this now that the test is over so as not to upset you before the test, but to help on the next test.

Hmm yeah I got the harder paper and when I solved for the intersection between two planes I was lost when I got infinite solutions after using Gaussian Elimination.

And I still couldn't grasp the concept of linear combination of vectors, i.e. I haven't found a mechanical way to solve questions like these.

Well I guess it all really counts in the end since my final exam is worth 64% of the entire assessment over the semester.
 
of course one should expect two planes to intersect in a line, i.e. infinitely many points.

try to think geometrically.
 

Thread 'Trouble understanding an online solution to an exercise in Dummit & Foote'

##\textbf{Exercise 10}:## I came across the following solution online: Questions: 1. When the author states in "that ring (not sure if he is referring to ##R## or ##R/\mathfrak{p}##, but I am guessing the later) ##x_n x_{n+1}=0## for all odd $n$ and ##x_{n+1}## is invertible, so that ##x_n=0##" 2. How does ##x_nx_{n+1}=0## implies that ##x_{n+1}## is invertible and ##x_n=0##. I mean if the quotient ring ##R/\mathfrak{p}## is an integral domain, and ##x_{n+1}## is invertible then...
View full post »

Thread 'Questions about non existence of GCDs vs (coimages, cokernels)'

The following are taken from the two sources, 1) from this online page and the book An Introduction to Module Theory by: Ibrahim Assem, Flavio U. Coelho. In the Abelian Categories chapter in the module theory text on page 157, right after presenting IV.2.21 Definition, the authors states "Image and coimage may or may not exist, but if they do, then they are unique up to isomorphism (because so are kernels and cokernels). Also in the reference url page above, the authors present two...
View full post »

Thread 'Decomposition into irreps of compact Lie group'

When decomposing a representation ##\rho## of a finite group ##G## into irreducible representations, we can find the number of times the representation contains a particular irrep ##\rho_0## through the character inner product $$ \langle \chi, \chi_0\rangle = \frac{1}{|G|} \sum_{g\in G} \chi(g) \chi_0(g)^*$$ where ##\chi## and ##\chi_0## are the characters of ##\rho## and ##\rho_0##, respectively. Since all group elements in the same conjugacy class have the same characters, this may be...
View full post »

Similar threads

I Vector subspace and basis vectors in the context of data science
Replies
6
Views
3K
B What unique contributions to math did linear algebra make?
Replies
19
Views
3K
I Row space, Column space, Null space & Left null space
Replies
8
Views
3K
I Index notation of vector rotation
Replies
7
Views
2K
I Dimension and solution to matrix-vector product
Replies
4
Views
3K
MHB Linear system of equations: Echelon form/Solutions
Replies
3
Views
1K
I Passive Transformation and Rotation Matrix
Replies
1
Views
3K
MHB Set of 2-dimensional orthogonal matrices equal to an union of sets
Replies
9
Views
2K
I Question from a proof in Axler 2nd Ed, 'Linear Algebra Done Right'
Replies
3
Views
2K
MHB For which c is there 1/0 solution?
Replies
2
Views
1K

Hot Threads

Recent Insights

Back
Top