kindaly first FIND THE LIMItS AND RANGEs THRough FOR thIS QUestion BY graphical methods AND BY HAND ON
NO OVERLaping , partial overlAPing ,COMPLETE oVerLAPING AND THEN
AGAIN ZERO OR NO OVER LAPING .
They have given less than equal to and greater than equal to also Mathematically equal to must be for one side only. Due to that the thing happens is graph exist for X=2 at two points on Y axis. I have drawn graph as they have mentioned.
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kindaly first FIND THE LIMItS AND RANGEs THRough FOR thIS QUestion BY graphical methods AND BY...
kindaly first FIND THE LIMItS AND RANGEs THRough FOR thIS
QUestion BY graphical methods AND BY HAND ON
NO OVERLaping , partial overlAPing ,COMPLETE oVerLAPING AND THEN
AGAIN ZERO OR NO OVER LAPING .
Task 01: Suppose that a LTI system is described by impulse response h(t)=efu(t). Compute the response of the system (by both methods) to the input signal -1<t< 0.5 10.6 X(t)={0.3 0 0.5<t<3 t<-land t > 3
Problem 2 Consider a continuous-time LTI system whose frequency response is given by 2 sin(40 (a) Find the impulse response, h(t) of the system (b) Determine the outputy() =x(t)*h(t) of the system given an input x(f)--1, ț < 8 4 otherwise 0,
Consider that a CT system with unit impulse response h(t)=u(t) is excited by the input signal defined as 0,<-3 t +3,-3<t < 0 x(t) = { t -- +3,0 < t < 6 0,t> 6 Find the output of the system and plot it. (10 points)
12 Problem la (10 points) Find the inverse Laplace transform of: Fo(s) the ROC is defined as: -12 < Re(s) <0 Identify terms as right sided or left sided. 8 +- If S S+12 Re(s)< 0 Re(s) >-12 X X -12 0 Problem lb (2 points) Circle one: The function f(t) Is: causal anti-causal not causal Explain why: Given the unilateral Laplace transform of the impulse response for a causal system H(S) = Determine h(t) the impulse response? Hint synthetic...
4.3.2 Find the Fourier transforms (with f= 0 outside the ranges given) of (a) f(x)= 1 for 0 < x <L (b) f(x)= 1 for x < 0 (c) f(x)= So eikx dk (d) the finite wave train f(x)=sin x for 0<x< 107
Problem 1: Let the impulse response of an LTI system be given by 0 t< h(t) = 〉 1 0 < t < 1 0 t>1 Find the output y(t) of this system if the input is given by a) x(t) = 1 + cos(2nt) b) x(t)-cos(Tt) c) x(t) sin (t )l d) x(t) = 1 0 < t < 10 0 t 10 e) x(t) = δ(t-2)-5(t-4) f) a(t)-etu(t) Problem 2: For the same LTI system in Problem 1,...
Compute and sketch the convlution of y[n] = x[n]*h[n] using the
graphical method for discrete signal where
x[n] =
h[n] =
2.-1<n<3 0, other wise
I really do need help please
7. X, Y have joint density f(x,y) = 2 if 0 < r <y< 1, S(x, y) = 0 otherwise. Compute the conditional density fxiy
a) Construct a frequency distribution where the first class has the limits 0 to <100 b) What is the value of n? The Range? The class width? Calculate the midpoint 4. Fancy Frocks has kept records of the number of dresses it has sold per day DRESSES SOLD 0 <<6 6 <12 12 18 FREQUENCY 2 5 4. a) What is the value of n? The class width? Calculate the midpoint of each class. b) Construct a percentage distribution 5...
2. Let U be a continuous random variable with the following probability density function: g(t) = 1+t -1 <t < 0 1-t 0<t<1 0 otherwise a. Verify that g(t) is indeed a probability density function. [5] b. Compute the expected value, E(U), and variance, V(U), of U. (10)