Laplce transform for 6t*(u(t)-u(t-1))

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Homework Help Overview

The discussion revolves around finding the Laplace transform of the expression 6t*(u(t)-u(t-1)), where u(t) represents the unit step function. Participants are exploring the implications of the unit step function in the context of the Laplace transform.

Discussion Character

  • Exploratory, Mathematical reasoning, Assumption checking

Approaches and Questions Raised

  • The original poster attempts to understand how to apply the Laplace transform to the given expression and questions the validity of treating u(t) as equal to 1. Other participants provide a breakdown of the integral definition of the Laplace transform and suggest a method for handling the unit step function.

Discussion Status

Participants are actively discussing the steps involved in calculating the Laplace transform, with some providing detailed reasoning about the integrals involved. There is an indication that one participant has resolved a part of their query regarding integration.

Contextual Notes

There is a mention of the original poster's uncertainty with integrating multiple variables, which may reflect constraints in their current understanding or experience level with the topic.

rudyx61
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Im having trouble finding the laplace transfor for the title equation:

6t*(u(t)-u(t-1))

Im not sure how to go about, i was thinking of considering u(t) to be equal to 1 but that seemed a bit of a dodgy thing to do

Any one have any ideas or answers on how i should go about solving this problem

cheers
rudy
 
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Well, by definition,
L(f(t))= \int_0^\infty e^{-st}f(t)dt
so
L(6t(u(t)- u(t-1))= \int_0^\infty e^{-st}6t(u(t)- u(t-1))dt
= 6\int_0^\infty e^{-st}tu(t)dt- 6\int_0^\infty e^{-st}tu(t-1)dt
The first is a standard integral. For the second, let r= t- 1 so that dt= dr, u(t-1)= u(r), and e^{-st}= e^{-s(r+1)}= e^{-s}e^{-sr}. The integral becomes
6e^{-s}\int_{-1}^\infty e^{-sr}(r+1)u(r)dr
and since the Laplace transform of u(t) only depends on the value of u for positive t, we can assume that u(t)= 0 for t< 0.
 
im not that good at integrating multiple variables so could you tell me how ud integrate the first term?
 
figured it out
 

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