Solve using convolution integral
Solve using convolution integral The signals h(t) and f(t) are as shown in Figure 12(a) and...
8) Convolution Integral (7 points). Given the following signals x(t) and h(t), compute and plot the convolution y(t) = x(t) *h(t). x(t) = u(t+2) - u(t – 4) h(t) = 5u(t)e-2t
For b.), it is from 20 to -20.
Not 10 to -10
3. (40 points) Consider the time signals shown in Figure3 h(t) 10 z(t) 2 -10 Figure 3 Find y(t)-h(t)sz(t) using the graphical approach of the convolution integral (by hand). You can use MATLAB to ver
3. (40 points) Consider the time signals shown in Figure3 h(t) 10 z(t) 2 -10 Figure 3 Find y(t)-h(t)sz(t) using the graphical approach of the convolution integral (by hand). You can use MATLAB...
Problem 4: Evaluation of the convolution integral too y(t) = (f * h)(t) = f(t)h(t – 7)dt is greatly simplified when either the input f(t) or impulse response h(t) is the sum of weighted impulse functions. This fact will be used later in the semester when we study the operation of communication systems using Fourier analysis methods. a) Use the convolution integral to prove that f(t) *8(t – T) = f(t – T) and 8(t – T) *h(t) = h(t...
2.3.5,2.3.8,2.10-2.3.12
23. (a) Convolution: 1 2-5 b) Convolution: 23.6 Find and sketch the coavolution rt)f) gt) where 2.3.7 Find and sketch the convolution z(t) = f(t)-g(t) where 2.3.8 Sketch the continmous-time signals f(e), 9(t) Find and sketch the coavolution y(t)t) git). f(t)e(t) 23.9 Using the convolation integral, ind the convolution of the signal f()-t with itself. 2.3.10 Find and sketch the convolution of and (t) 2.3.11 Sketch the continmous-time signals f(t),g(t) Find and sketch the coavolution y(t)f(t).git) f(t)-u +2)-ut-2) 2.3.12...
2. Using direct convolution (i.e., the integral), determine the convolution between r(t) and h(t), where h(t) and r(t) are defined as (note: please do NOT just plug in the formulas we derived in the class): h(t) exp(-2t) u (t) and x(t) = exp(-t)u(t), u(t) is the unit step function. h(t) exp(-t)u (t) and r(t)= exp(-t)u(t)
Calculate the convolution integral of the following signals. Find the energy and power of the input and output signals. x(t) y(t) x(t) = cos(it)[u(t + 1) – uſt – 3)] h(t) = u(t + 2) – uſt – 1) del mes h(t) de ser LTI System
Use the convolution integral to find the output current indicated in the circuit shown in Figure P7-44 when 1,0) = [1 + cos(1))u(t) A. Clearly explain all major steps of the analysis. 1H Figure P7-44
Use the convolution integral to find the output current indicated in the circuit shown in Figure P7-44 when 1,0) = [1 + cos(1))u(t) A. Clearly explain all major steps of the analysis.
1H Figure P7-44
4. Use the convolution integral to find f, where f = g*h, and g(t) = et ult) h(t) = e-2t u(t) Note that both of these are causal to simplify the integration.
Please show using MATLAB Answer
7. Obtain the convolution of the pairs of signals in Figure 7 h(t) a(t) 0 2 h(t) r(t) 0 0 Figure 7: Signal pairs Therefore, y(t) = 0 otherwise
7. Obtain the convolution of the pairs of signals in Figure 7 h(t) a(t) 0 2 h(t) r(t) 0 0 Figure 7: Signal pairs
Therefore, y(t) = 0 otherwise
Just the program code please, thank you
Question: How to compute the convolution of these two signals in MatLa.. (1 bookmark) How to compute the convolution of these two signals in MatLab, without using the conv function/command System response: y(t)= 2tu(t)-3(t-1)u(t-1)-(t2)u(t-2) should be this one according to the book's solutions. Suppose that the system of Figure P3.2(a) has the input x(t) given, in Figure P3.2(b). The impulse response is the unit step fund ion h(t)u(t). Find and sketch the system...