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Signals & Systems Course Question
2. The response of a system is for t 20 and...
2.45,2.48 explain clearly please Signals and Systems: A Primer with MATLAB 104 20 1H y(t) x(t)...
2.45,2.48 explain clearly please
Signals and Systems: A Primer with MATLAB 104 20 1H y(t) x(t) FIGURE 2.38 For Problem 2.48. 2.45 An accumulator has impulse response h[n] = u[n]. Check if an accumulator is BIBO stable 2.46 The input to the circuit discussed in Example 2.15 is v,) ut - )dt - 2) Use convolution to determine the output 2.47 Determine the output of the circuit discussed in Practice Problem 2.15 if v,) u() 2.48 If the filter in...
a = 3 signals and systems 1) [10 pts. Let a system be defined as ta...
a = 3
signals and systems
1) [10 pts. Let a system be defined as ta y(t) x(31 - 2a)dt 2a Is this system b) No b) No b) No vii) memoryless? a) Yes viii) Linear? a) Yes ix) Time invariant? a) Yes x) Causal? a) Yes xi) BIBO stable? a) Yes 2) [5 pts. What is the impulse response h(t)? 3) [10 pts.] Let a signal in s domain b) No b) No 2 Y(S) Sa What is the...
SIGNALS and SYSTEMS HOMEWORK-IV 1. Let X(t) be the input to an LTI system with unit...
SIGNALS and SYSTEMS HOMEWORK-IV 1. Let X(t) be the input to an LTI system with unit impulse response h(t), where x(t) = e-tu(t) h(t) = u(t -3). Determine and plot the output y(t) = x(t) *h(t). Both analytically and graphical method. (25 p)
signals and systems show details and clear handwriting 4. A first-order filter impulse response is given...
signals and systems show details and clear handwriting
4. A first-order filter impulse response is given by: h(t) = -48(t) +etult) • Find the zero-state response of this filter for the input e-2tu(t). • Sketch the input and the corresponding zero-state response. • Find the zero-state response of this filter for the input e-tu(t). • Sketch the input and the corresponding zero-state response.
9.7. Determining the ROCS of the following systems: S ooslas arb bos (a) The system with the impulse response of h(t) 5...
9.7. Determining the ROCS of the following systems: S ooslas arb bos (a) The system with the impulse response of h(t) 5.2'u(t). (b) The system with the impulse response of h(t) 4.2'u(2 - t). (c) The system with the impulse response of h(t) 20e [u(t)- u(t12)]1 =
9.7. Determining the ROCS of the following systems: S ooslas arb bos (a) The system with the impulse response of h(t) 5.2'u(t). (b) The system with the impulse response of h(t) 4.2'u(2 -...
PLEASE ANSWER ONLY QUESTION 2. QUESTION 2 DEPENDS ON THE INFORMATION FROM QUESTION 1. There are...
PLEASE ANSWER ONLY QUESTION 2. QUESTION 2 DEPENDS ON THE
INFORMATION FROM QUESTION 1.
There are several possibilities for implementing a "DT differentiator." One of the simplest is to use a DTLTI system having impulse response 1. Find and plot the system's step response s[n] (that is, the system's output when a. the input is the unit step [a]) and ramp response rlnl (that is, the system's output when the input is the unit ramp nu[n]). Do the outputs agree...
Consider the following circuits connected in series. The input is the voltage x(t), the output to...
Consider the following circuits connected in series. The input is the voltage x(t), the output to system Si is the voltage y(t), and the output of system S2 is the voltage y(t). The differential equation relating the input X(t) to the output yı(t) was found in Homework #3. S2 x(1) y(t) | X(t) 6+ R yce) .66) (1) + y(t) Let L = 0.01, C1 = 0.01, R = 100, C2 = 0.002, and R2 = 50. a) Find the...
Signals and Systems 2. The pole-zero diagram below has 2 zeros at the origin and 2...
Signals and Systems
2. The pole-zero diagram below has 2 zeros at the origin and 2 poles to represent a system A(s). Pole-Zero Map (-0.5, +1) X d Imaginary Au (-0.5, -1) X RealAxis con Is this a stable system? Explain. Write an exact simplified expression for A(s). A(s) = 3. A system has impulse response h(t)= u(t) A e' where A and B are positive constants. Write an exact simplified expression for H(S).
Given a zero-state LTI system whose impulse response h(t) = u(t) u(t-2), if the input of...
Given a zero-state LTI system whose impulse response h(t) = u(t) u(t-2), if the input of the system is r(t), find the system equation which relates the input to the output y(t) 4. (20 points) If a causal signal's s-domain representation is given as X (s) = (s+ 2)(s2 +2s + 5) (a) find all the poles and zero of the function. 2 1 52243 orr
need asap 1, (20 points) Suppose we have a İTİ system with impulse response(h(t) described as...
need asap
1, (20 points) Suppose we have a İTİ system with impulse response(h(t) described as following h(t) 6u(t) where u(t) is unit step function. The output(Y (s)) is expressed as the product of input (R(s)) and transfer function Y(s) = R(s)H(s) The Laplace transform is defined as LTI system R(H) Y (s) Figure 1: LTI system in s-plane (a) (5 points) Find the tranisfer function(H(s)) of the LITI system. (b) (5 points) Find the Laplace transform of the input(r(t)....
2.45,2.48 explain clearly please
Signals and Systems: A Primer with MATLAB 104 20 1H y(t) x(t) FIGURE 2.38 For Problem 2.48. 2.45 An accumulator has impulse response h[n] = u[n]. Check if an accumulator is BIBO stable 2.46 The input to the circuit discussed in Example 2.15 is v,) ut - )dt - 2) Use convolution to determine the output 2.47 Determine the output of the circuit discussed in Practice Problem 2.15 if v,) u() 2.48 If the filter in...
a = 3
signals and systems
1) [10 pts. Let a system be defined as ta y(t) x(31 - 2a)dt 2a Is this system b) No b) No b) No vii) memoryless? a) Yes viii) Linear? a) Yes ix) Time invariant? a) Yes x) Causal? a) Yes xi) BIBO stable? a) Yes 2) [5 pts. What is the impulse response h(t)? 3) [10 pts.] Let a signal in s domain b) No b) No 2 Y(S) Sa What is the...
SIGNALS and SYSTEMS HOMEWORK-IV 1. Let X(t) be the input to an LTI system with unit impulse response h(t), where x(t) = e-tu(t) h(t) = u(t -3). Determine and plot the output y(t) = x(t) *h(t). Both analytically and graphical method. (25 p)
signals and systems show details and clear handwriting
4. A first-order filter impulse response is given by: h(t) = -48(t) +etult) • Find the zero-state response of this filter for the input e-2tu(t). • Sketch the input and the corresponding zero-state response. • Find the zero-state response of this filter for the input e-tu(t). • Sketch the input and the corresponding zero-state response.
9.7. Determining the ROCS of the following systems: S ooslas arb bos (a) The system with the impulse response of h(t) 5.2'u(t). (b) The system with the impulse response of h(t) 4.2'u(2 - t). (c) The system with the impulse response of h(t) 20e [u(t)- u(t12)]1 =
9.7. Determining the ROCS of the following systems: S ooslas arb bos (a) The system with the impulse response of h(t) 5.2'u(t). (b) The system with the impulse response of h(t) 4.2'u(2 -...
PLEASE ANSWER ONLY QUESTION 2. QUESTION 2 DEPENDS ON THE
INFORMATION FROM QUESTION 1.
There are several possibilities for implementing a "DT differentiator." One of the simplest is to use a DTLTI system having impulse response 1. Find and plot the system's step response s[n] (that is, the system's output when a. the input is the unit step [a]) and ramp response rlnl (that is, the system's output when the input is the unit ramp nu[n]). Do the outputs agree...
Consider the following circuits connected in series. The input is the voltage x(t), the output to system Si is the voltage y(t), and the output of system S2 is the voltage y(t). The differential equation relating the input X(t) to the output yı(t) was found in Homework #3. S2 x(1) y(t) | X(t) 6+ R yce) .66) (1) + y(t) Let L = 0.01, C1 = 0.01, R = 100, C2 = 0.002, and R2 = 50. a) Find the...
Signals and Systems
2. The pole-zero diagram below has 2 zeros at the origin and 2 poles to represent a system A(s). Pole-Zero Map (-0.5, +1) X d Imaginary Au (-0.5, -1) X RealAxis con Is this a stable system? Explain. Write an exact simplified expression for A(s). A(s) = 3. A system has impulse response h(t)= u(t) A e' where A and B are positive constants. Write an exact simplified expression for H(S).
Given a zero-state LTI system whose impulse response h(t) = u(t) u(t-2), if the input of the system is r(t), find the system equation which relates the input to the output y(t) 4. (20 points) If a causal signal's s-domain representation is given as X (s) = (s+ 2)(s2 +2s + 5) (a) find all the poles and zero of the function. 2 1 52243 orr
need asap
1, (20 points) Suppose we have a İTİ system with impulse response(h(t) described as following h(t) 6u(t) where u(t) is unit step function. The output(Y (s)) is expressed as the product of input (R(s)) and transfer function Y(s) = R(s)H(s) The Laplace transform is defined as LTI system R(H) Y (s) Figure 1: LTI system in s-plane (a) (5 points) Find the tranisfer function(H(s)) of the LITI system. (b) (5 points) Find the Laplace transform of the input(r(t)....
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