Linear Dependence Check: [-1, 1]

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SUMMARY

The discussion centers on the linear dependence of the functions 1, cos(πx), and sin(πx) over the interval [-1, 1]. It is established that a single non-zero function is always independent, and thus the function sin(πx) alone cannot be considered dependent. The key point is that linear dependence applies to a set of vectors (or functions), and for dependence to exist, at least one linear combination of the functions must yield zero with non-zero coefficients. The participants clarify that the question pertains to the set of three functions, not just sin(πx) in isolation.

PREREQUISITES
  • Understanding of linear algebra concepts, specifically linear dependence and independence.
  • Familiarity with vector spaces and functions as vectors.
  • Knowledge of trigonometric functions, particularly sine and cosine.
  • Basic understanding of linear combinations of functions.
NEXT STEPS
  • Study the definitions of linear dependence and independence in vector spaces.
  • Explore the properties of trigonometric functions as vectors in function spaces.
  • Learn about linear combinations and their implications in determining dependence.
  • Review examples of sets of functions to identify linear dependence and independence.
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Students and educators in mathematics, particularly those studying linear algebra and functional analysis, as well as anyone interested in the properties of trigonometric functions in vector spaces.

AngeloG
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Check for Linear Dependence for: \sin \pi x [-1, 1]

I'm thinking it's Linear Dependent. Since it says that any linear combination must be 0.

a*x + b*y = 0, a = b = 0.

So for any integer x, the value is 0. So [-1, 1] works.
 
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? "Linear Dependence" or independence applies to a set of vectors. Certainly we can think of the collection of functions over [-1, 1] as a vector space but still sin \pi x is a single function!

Also Linear Depence of a set of vectors does NOT mean "any linear combination must be 0". Only that there exist at least one more linear combination other than the one where all coefficients are 0. In order that two functions, f and g, be dependent, there must be a and b, not both 0 so that af(x)+ bg(x)= 0 for all x.

But still, what set of functions are you talking about? A single non-zero function (vector) is always independent.
 
The question is:

Check the linear dependency of the functions sin(pi x).
 
You said "functions" but there's only one non-zero function. What kind of values can x take?
 
Err, it was part of:

1, cos(pi x), sin(pi x).

Those are the functions. 1 is linear independent, cos(pi x) and sin(pi x) I'm not sure about.
 
If you don't even know enough to quote the problem correctly, then I strongly recommend you review what "dependent" and "independent" mean! Once again, a single function (vector) is always "independent"! It makes no sense at all to say "1 is linearly independent" and, again, the problem is NOT asking about the "dependence" or "independence" of the each of those three functions. It is asking, as I suggested before, about the dependence or independence of the set of those three functions.

Now, how does your textbook define "dependent functions" or "dependent vectors"?
 
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