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'''Answer'''
'''Answer'''


a)Remember that dummy variable <math> \lambda \!</math> was used in substitution such that <math> \lambda= t-t_0 \! </math>
a)


Remember that dummy variable <math> \lambda \!</math> was used in substitution such that <math> \lambda= t-t_0 \! </math>
This means <math> s(\lambda)= s(t-t_0)= \mathcal{F}\left[ S (f)- S(f_0) \right] \!</math>


This means <math> s(\lambda)= s(t-t_0)= \mathcal{F}\left[ S (f)- S(f_0) \right] \!</math> In my notations <math>S(f_0)=S(f)|_{f=0 \!</math>
In the problemstatement it says to make <math>S(f_0)=0 \!</math>


The problem statement says let <math>f_0=0 \!</math> where <math>S(0)= S(f)|_{f=0} = \int_{-\infty}^{\infty} s(t)e^{- j 2 \pi f t} dt = \int_{-\infty}^{\infty} s(t) dt \! </math>



<math>\mbox{ if } S(0) = 0\,\,\, \int_{-\infty}^{\infty} s(t) dt =0 \!</math>




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Therefore <math> \mathcal{F}\left[ \int_{- \infty}^{t} s(\lambda ) \,d\lambda \right] = \frac{S(f)}{j2 \pi f} \!</math>
Therefore <math> \mathcal{F}\left[ \int_{- \infty}^{t} s(\lambda ) \,d\lambda \right] = \frac{S(f)}{j2 \pi f} \!</math>






In my notations <math>S(f_0)=S(f)|_{f=0 \!</math>

The problem statement says let <math>f_0=0 \!</math> where <math>S(0)= S(f)|_{f=0} = \int_{-\infty}^{\infty} s(t)e^{- j 2 \pi f t} dt = \int_{-\infty}^{\infty} s(t) dt \! </math>

<math>\mbox{ if } S(0) = 0\,\,\, \int_{-\infty}^{\infty} s(t) dt =0 \!</math>

Revision as of 20:36, 18 December 2009

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Problem Statement

6(a) Show .

6(b) If can you find in terms of ?

Answer

a)Remember that dummy variable was used in substitution such that

This means

In the problemstatement it says to make



</math> and


Therefore




In my notations Failed to parse (syntax error): {\displaystyle S(f_0)=S(f)|_{f=0 \!}

The problem statement says let where