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More differentiation qns (2 Viewers)

leehuan

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When I tried experimenting with the MVT I found something like this:



However they gave a hint and I have no idea how to apply it.

 
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InteGrand

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I'll denote the integral of f over the interval by I.

By the hint, we have m <= f(t) <= M for all t in [a,b].

Integrating the inequality from a to b,

m(b - a) <= I <= M(b-a).

Therefore, m <= (1/(b-a))*I <= M (dividing through by (b-a)).

So (1/(b-a))*I is between m and M, so by the intermediate value theorem there'll be a c in (a,b) such that f(c) = (1/(b-a))*I, i.e. f(c)*(b-a) = I, as required.

(Since we are told f is continuous on [a,b], we can indeed use the EVT and IVT.)
 
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leehuan

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Oh my goodness. leehuan stop overcomplicating crap.
 

leehuan

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Just going to put all the remainder questions here as well... sorry



I am most certainly tired as hell. But all I want to do is scream. Can't get anything out.
 

seanieg89

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(Btw, for this theorem, which is known as the mean value theorem for integrals, g actually needs to be a function of fixed sign, rather than just non-zero.)
Well the fact it is continuous on an interval and does not vanish on this interval implies that it is of fixed sign.
 

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