Vector spaces problem -linear algebra

AI Thread Summary
The discussion revolves around understanding the solution to a linear algebra problem involving vector spaces and differential equations. The user seeks clarification on why the function f(t) is divided by e^(at) and how it leads to the conclusion that f(t) can be expressed as ce^(at). The solution involves recognizing that the kernel of the operator D - aI consists of functions satisfying the equation f' - af = 0, which is solved using separation of variables. The integration process reveals that f(x) takes the form Ce^(ax), where C is a constant. The explanation provided successfully clarifies the steps involved in deriving the solution.
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Homework Statement


Hi guys , I have this problem ,well actually I don't understand the solution they provide , Here's the problem statement and the solution .
linear6.JPG

May someone please explain the solution to me?? Thanks so much, Sorry for my bad english


Homework Equations


1.I understand that f'-af=0 and the kernel is the space of the solutions that satisfy that equation but I don't get what they do after that...why do they divide f(t) by e^(at)?
2. why do they conclude that exists a constant c such that f(t)=ce^at??
 
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The problem is this: we have the vector space of all infinitely differentiable functions, D is the differentiation operator.
a) Find the kernel of the linear operator D- I.
b) Find the kernel of the linear operator D- aI.

It is simplest to solve (b) first, then take a= 1 to solve (a).
If f is any function in the kernel of D- aI then, by definition of "kernel" we must have f'- af= 0.
That is the same as df/dx= af which is a separable equation: df/f= adx. Integrating both sides, ln(f)= ax+ d where c is the constant of integration. Taking the exponential of both sides f(x)= e^{ax+ c}= Ce^{ax} where C= e^c.

That is how I would have solved the problem. I suspect that your text, knowing that f must be an exponential, started from that:
\left(\frac{f(x)}{e^{ax}}\right)'= \frac{f'(x)e^{ax}- f(x)ae^{ax}}{e^{2ax}}= \frac{(f'(x)- af(x))e^{ax}}{e^{2ax}}
by the product rule.

And, because f'(x)- af(x)= 0, the right side is 0, the derivative of f(x)/e^{ax} is 0 so that f(x)/e^{ax} is a constant: f(x)/e^{ax}= C so f(x)= Ce^{ax}.

(And your English is excellent. Far better than my (put language of your choice here).
 
Thank you so much HallsofIvy , I understood all your explanation . It's cool to know that there's still good people who like to help others .Greetings from Chile
 
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