20082ee102_1_hw5

# 20082ee102_1_hw5 - where S 1 and S 2 are L TI C Moreover S 1 is described by the IPOP relation z t = Z t e t-τ x τ dτ while the Unit Step

This preview shows pages 1–2. Sign up to view the full content.

SPRING 2008: Put First Letter * of LAST Name in the corner →→%% (* Otherwise Your HW will be LOST) PRINT: (LAST, Middle, First):——————————————————– HW: # 5 A LATE HW IS NEVER A HW! Posted: May 1st Hand In: May 8th Attach This Sheet To Your HW 1. Realize the signal y ( t ) = ( - 7 e - 3 t + 8 e - 4 t ) U ( t ) as the output of a L, TI, C system S when an appropriate input x(t) is applied to S. Write down the IRF h(t) of S and the input x(t). x ( t ) =? [ L,TI,C,h ( t ) =?] y ( t ) = ( - 7 e - 3 t + 8 e - 4 t ) U ( t ) 2. In the diagram below: x ( t ) S 1 z ( t ) S 2 y ( t

This preview has intentionally blurred sections. Sign up to view the full version.

View Full Document
This is the end of the preview. Sign up to access the rest of the document.

Unformatted text preview: ) where S 1 and S 2 are L, TI, C. Moreover, S 1 is described by the IPOP relation z ( t ) = Z t e-( t-τ ) x ( τ ) dτ, while the Unit Step Response g 2 ( t ) of S 2 is g 2 ( t ) = te-t U ( t ) . Your problem is to compute the output y(t) of the cascaded combination S 12 = S 1 S 2 when the input x ( t ) = δ ( t ) + 2 costU ( t ) 1 is applied to it. 3. Textbook, Page.37, Problem 2.2 4. Textbook, Page.68, Problem 3.4 5. Textbook, Page.71, Problem 3.11 6. Textbook, Page.75, Problem 3.23 2...
View Full Document

## This note was uploaded on 04/13/2010 for the course EE ee102 taught by Professor Levan during the Spring '09 term at UCLA.

### Page1 / 2

20082ee102_1_hw5 - where S 1 and S 2 are L TI C Moreover S 1 is described by the IPOP relation z t = Z t e t-τ x τ dτ while the Unit Step

This preview shows document pages 1 - 2. Sign up to view the full document.

View Full Document
Ask a homework question - tutors are online