:) y Y(t). *G:1,2: x(t)= 120 Sen (4t+π/2) y Y(t) = 60 Cos(2π/2 t + n) * G: 3;4: X(t)= 60 Sen (3t+π/3) y Y(t) = 12 Cos(4t+π/3) ♦ G: 5;6: x(t)= 120 Sen (60 πt+n/4) y Y(t)= 120 Cos(15t+n/4) ⚫G: 7;8: X(t)= 60 Sen (3πt+π/2) y Y(t) = 15 Cos(3πt+n/2) • G: 9;10: x(t)= 60 Sen (t+/2) y Y(t) = Cos(4t+0) > G: 11 x(t)= 60 Sen (3t+π/2) y Y(t)= 5 Cos(4t+2n)
:) y Y(t). *G:1,2: x(t)= 120 Sen (4t+π/2) y Y(t) = 60 Cos(2π/2 t + n) * G: 3;4: X(t)= 60 Sen (3t+π/3) y Y(t) = 12 Cos(4t+π/3) ♦ G: 5;6: x(t)= 120 Sen (60 πt+n/4) y Y(t)= 120 Cos(15t+n/4) ⚫G: 7;8: X(t)= 60 Sen (3πt+π/2) y Y(t) = 15 Cos(3πt+n/2) • G: 9;10: x(t)= 60 Sen (t+/2) y Y(t) = Cos(4t+0) > G: 11 x(t)= 60 Sen (3t+π/2) y Y(t)= 5 Cos(4t+2n)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
Question
Telecommunications
Given the signs x(t) and y(t):
- Determine the signal period: 2x(t) + 3 y(t) if:
- Determine the angular frequency of X(t), its period and its frequency:
* Find the power of y(t), if y(t) is a voltage signal: indicate the units of the value obtained
- Represent the signal in a fasorial way and (t)
Transcribed Image Text::) y Y(t).
*G:1,2: x(t)= 120 Sen (4t+π/2) y Y(t) = 60 Cos(2π/2 t + n)
* G: 3;4: X(t)= 60 Sen (3t+π/3) y Y(t) = 12 Cos(4t+π/3)
♦ G: 5;6: x(t)= 120 Sen (60 πt+n/4) y Y(t)= 120 Cos(15t+n/4)
⚫G: 7;8: X(t)= 60 Sen (3πt+π/2) y Y(t) = 15 Cos(3πt+n/2)
• G: 9;10: x(t)= 60 Sen (t+/2) y Y(t) = Cos(4t+0)
> G: 11 x(t)= 60 Sen (3t+π/2) y Y(t)= 5 Cos(4t+2n)
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