flyingpig said:I thought Span is the linear combination of all vectors in that set and hence it must be R^2?
Assuming v1 and v2 are in R^2, if v1 = c v2 for some c in R, then no, span{v1, v2} is not equal to R^2.Theorem. said:your set consists of two vectors, v1 and v2. if v1 and v2 are both elements of R^2, then they will span all of R^2.
Unit said:Assuming v1 and v2 are in R^2, if v1 = c v2 for some c in R, then no, span{v1, v2} is not equal to R^2.
Theorem. said:your set consists of two vectors, v1 and v2. if v1 and v2 are both elements of R^2, then they will span all of R^2. nowhere have you stated that v1 and v2 are both elements of R^2, they could be vectors in R^3.
Unit said:My apologies, Theorem; I was hasty. You are right.
Theorem. said:No worries : ) hopefully the OP understands what i meant
Two independent vectors will always span a plane. Whether or not that plane is R2 or not depends upon the vectors and what you mean by R2. The two vectors <1, 0, 1> and <0, 1, 0> will have span a<1, 0, 1>+ b<0, 1, 0>= <a, b, a> which can be expressed as <x, y, z> with z= x, or the plane z= x.flyingpig said:Does it matter how many entries I have in my vectors? I can have three entries in my vectors, but with two vectors, they will always span R2.
Is there even any relations to having free variables (parameters) with the concept of Span?
The definition of "span" of a set of vectors is the set of all linear combinations of the vectors. In particular, the span of the two vectors {u, v} is all vectors of the form au+ bv for any scalars a and b. Both a and b are, I think, what you are calling "parameters". Where did you get the idea that there could be "at most one parameter"? The span of a set of n vectors will involve n parameters and, if the vectors are independent, the span will be an n-dimensional subspace.So the question is, how? There can be at most one parameter right? One parameter means the solution is a line, we need two to make a plane?
Conceptual questions on a midterm can cover a wide range of topics, but they typically require you to apply your understanding of a concept or theory to a specific scenario or problem.
To prepare for a conceptual question, make sure you have a solid understanding of the main concepts and theories covered in your course. Review your notes, textbook, and any practice problems or quizzes to help you identify key ideas and how they can be applied.
This can vary depending on the instructor and the specific question, but many conceptual questions on midterms are open-ended or require some written explanation. It's important to read the question carefully and answer it in a way that fully demonstrates your understanding.
It's best to check with your instructor beforehand, but in most cases, you will be expected to answer conceptual questions on your own without consulting outside resources. This allows your instructor to assess your understanding of the material and your ability to apply it.
This can vary depending on the length and complexity of the question, but it's important to manage your time effectively during a midterm. You may want to allocate a set amount of time to each question and move on if you are struggling, then come back to it later if time allows.