The following are the impulse responses of continuous time LTI systems. Determine whether each system is casual and/or stable. Justify your answers a) h(t) = e-4tu(t − 2) b) h(t) = e-tu(3-t) c) h(t) = (2e-t c) h(t) = (2e¯t – e(t-100)/100)u(t) -

The following are the impulse responses of continuous time LTI systems. Determine whether each system is casual and/or stable. Justify your answers a) h(t) = e-4tu(t − 2) b) h(t) = e-tu(3-t) c) h(t) = (2e-t c) h(t) = (2e¯t – e(t-100)/100)u(t) -

Electricity for Refrigeration, Heating, and Air Conditioning (MindTap Course List)

10th Edition

ISBN:9781337399128

Author:Russell E. Smith

Publisher:Russell E. Smith

Chapter9: Components For Electric Motors

Section: Chapter Questions

Problem 14RQ

See similar textbooks

Related questions

Q: Determine the power consumed by resistor R₂, given: E₁ = 24 V, R₁ = 27 02, R₂ = 12 Q, R₂ = 12 Q2,…

Q: H.W3 The single-phase full wave load with R=0.50 and L= 6.5mH. controlled rectifier has a R-L The…

A: Since you have posted multiple subparts so we will solve the first 3 parts for you,The resistor,…

Q: 4. UMF 6.48 with the addition of also finding and plotting v.(t) You may choose to do this by either…

Q: RI 100 Q ww +100 Hz 40 V LI 0.2 H L2 0.8 H 8. What's the impedance of the circuit shown in the…

Q: Solve for the value of the capacitance (in nF unit) if R2-1017 ohms and Xc-2316 ohms. Round your…

A: Resistance is given as, Capacitive reactance is given as,

Q: Vs Question(s): (a) Determine iz(t) for t> 0. R 2R RS t=0 15 (1) 10 +L UL (1) L

A: The circuit diagram,

Q: Question (1) The Hay Bridge in the figure to the left is balanced, determine the unknown inductance…

A: The Hays Bridge,

Q: In the circuit given below, G= 4 S. Determine voltage v₁ through v3 using nodal analysis. V1 2 A 21…

A: Nodal analysis uses ohms law and Kirchhoffs current law.The detailed solution is provided below.

Q: Use voltage divider to solve for the labeled voltage in the circuits below.

A: In the given circuit the value of the unknown voltage vb needs to be calculated by using the…

Q: A center-tapped transformer full-wave rectifier has a secondary voltage of 30 Vp. If the diodes used…

A: Maximum voltage is given as, Load resistance is given as Internal resistance is given as,

Q: How much current will flow into the resistor in this condition? RL R-4.0 ohms L-1.2 m V B 2 T…

A: Resistance Length L = 1.2 m.Magnetic field B = 2 T.Velocity v = 0.713 m/s.Driction into page of…

Q: In the figure below Power Processor Stop/Start a. Select one: Input Output O C. O d. Motor O e. b.…

A: The given figure is shown below.

Q: 4.3-1. Subnet addressing. Consider the three subnets below, each in the larger 128.119.160/24…

A: The given questions are concerned with subnet addressing: the three subnets below, each in the…

Q: 8. A 30.0 mH inductor with a resistance of 422 is connected to a 12.0 V battery. Find the current…

A: Inductance of the RL circuit Resistance of the RL circuit Supply voltage V = 12 V.Time t = 12.5 ms.

Q: An analog voltage in the range 0 to 10.8 V is divided in 16 equal intervals for conversion to 4-bit…

A: Range of voltage is given as,0 to 10.8 V.Maximum voltage is given as, Number of interval given as, n…

Q: 6. In the AC circuit shown, the voltage leads the current by 26.6° and the impedance of the circuit…

Q: For the circuit calculate the total current, the current in each inductor branch, and the impedance,…

A: Given circuitAsked to find thge,Current in each inductorTotal impedancephase anglereactive powerDraw…

Q: Determine the total resistance for the circuit, given: E₁ = 477 V, P₁ = 459 W, P₂ = 459 W, P3 = 459…

A: The given circuit isThe source voltage, ET=477 VThe power consumed by each…

Q: 8) Obtain the block diagram representation of discrete-time causal LTI systems defined by the…

A: 8.The difference equations of the discrete -tine LTI systems are given bya. y[n]=13y[n−1]+12x[n] .b.…

Q: A load is connected to a 210 V, 50 Hz supply. If it has resistance of 30 02 and a capacitor of 0.25…

A: Supply voltage V = 210 V.Frequency f = 50 Hz.Resistance Capacitance

Q: Question No. 1: Summarize the following (two to three lines) a) Difference between precision and…

A: we need to summarize the following:a) Difference between precision and accuracy.b) Difference…

Q: RT is the thermistor Rd is the decade resistance box which represents the variable resistor. R3 and…

A: The given circuit isWe need to prove the condition, R4R3=RTRd when the Wheatstone bridge is…

Q: Problem 3: Question Consider the circuit diagram below. Given IA = 2.5 mA and Is = 1.25 mA: a) Find…

Q: Calculate the current power factor pf= lagging, leading, or unity Calculate the total current before…

A: Asked to find the following,Note: “Since you have posted question with multiple sub parts, we will…

Q: For the block diagram shown below, specify the closed-loop transfer function; R(1) GI HI G2 H2 H3 G3

A: In this question, we need to determine the close loop transfer function. We solve this problem using…

Q: Given a continuous time signal x(t). Sample the signal with a sampling rate of F=100 samples/s. x(t)…

A: Since multiple subparts are asked, as per Bartleby guidelines, only the first 3 are answered. Please…

Q: An alternating f.e.m generator has an effective value of 2000 V and a frequency of f=100 Hz. Find…

A: In this question, we need to determine the peak voltage and value of the period T.Where the…

Q: The equivalent block diagram for a system is shown below R(S) + K + + 10 s + 10 10 10 S² Calculate…

A: We need to calculate the range of K and stability .

Q: Prove that: -h,R V₁ h,+ (hh h₂h) R V A₂ = 0

A: In the given questions we need to prove the given voltage gain of the amplifier.

Q: For the linear transformer circuit assume v(t)s = 1Vrms cos(@t)V, operated at a equency of 100Hz. is…

A: Given Data:A mutually coupled circuit with,Supply voltage Self inductances Mutual inductance Load…

Q: Determine the current flowing through resistor R given: E₁=45 V, R₁ = 28 , R₂ = 29, R₂ = 132, and R₁…

A: The given problem is from circuit theory. The problem can be solved by using nodal analysis.

Q: E 100 V 290° ST= ST= ISTI P+= Q+= = Load 1 200 VAR (L) OW untis units units units Calculate the…

A: In this question, we need to determine the total complex, apparent, average, and reactive power.

Q: The upper critical frequency of a particular op-amp is 100 Hz. What is its open-loop 3 dB bandwidth?

A: In this question, we need to determine the bandwidth of the op amplifier.Upper critical frequency f…

Q: The node voltages are vA = ______V and vB=_______V.

Q: Determine the total power consumed in the circuit, given: Ę₁ = 192 V, R₁ = 45 №, R₂ = 37 №, and R₂ =…

Q: R(s) + Кр 4 s(s+20) (s + 100) Y(s) (a) Using Routh-Hurwitz approach, calculate the range of Kp for…

A: The given block diagram of a closed-loop control system is shown below.We need to determine the…

Q: 1 G (w) Signar. XII Lat 2 545 0 DA 45 t

A: Since you have posted multiple questions, we will provide the solution only to the first question as…

Q: Q13) Calculate the current I, in the following circui 100mA I + Vs R 1ΚΩ 50mA R 3 R 3 1ΚΩ"

A: Circuit diagram is given as,

Q: Solve for the Fourier transform of the following: a. 9₁(t) = Acos(T) for -≤t≤ 0 otherwise 2 b. g₂(t)…

A: Given Data:The continuous-time signals of, for To Find:The Fourier Transform.

Q: 1. Use the principle of superposition to solve for Vx. Think about what kind of sources we turn off…

A: In this question, we need to determine the voltage Vx as shown the in circuit using the super…

Q: How can I rearrange this ewuation to find an expression for T2?

A: In this question, we need to determine the value of T2 . We solve this problem using the Logarithm…

Q: Determine the power consumed by R₁, given: '4' E₁=130 V, R₁ = 37 №, R₂ = 45 №, R₂ = 27, and R₁ = 28…

A: The given circuit is shown below.We need to determine the power consumed by R4.

Q: Determine the total resistance for the circuit, given: R₁ = 102, R₂ = 50, R₂ = 14 Q2, and R₁ = 152…

A: The given circuit is shown below.We need determine the total resistance for the circuit.

Q: Determine the total resistance for the circuit, given: R₁ = 152, R₂ = 10 , R₂ = 23 , and R =7Ω…

A: The circuit diagram,

Q: path transfer function for a unity feedback system. The forward path transfer function 10 G(s) =…

A: standard close loop transfer function T(s) = w2/(s2+2ζws+w2)given equation G(s) =…

Q: Problem 1: Question A DC resistive circuit includes a 5.5 mA current source, I, which is connected…

A: Given Data:A DC resistive circuit with,A current source Two parallel resistors Here,To Find:Circuit…

Q: d) Determine the total inductance for the connection shown in Figure 5.1 below. L1 2mH vor L4 6mH m…

A: Circuit diagram is given as,

Q: Determine the voltage dropped on R3, given: E₁ = 131 V, R₁ = 450, R₂ = 93 , and R₂ = 149 0 (Round…

A: The battery voltage, The resistors,

Q: For the circuit shown, calculate root main square voltage where a=50°. P S 220 ww w W 100

A: The circuit diagram,The peak value of line voltage, The firing angle,

Q: For the data stream 011100101, sketch the transmitted sequence of pulses for each of the following…

A: Since you have posted a question with multiple subparts, we will provide the solution only to the…

Question

The following are the impulse responses of continuous time LTI systems. Determine whether each
system is casual and/or stable. Justify your answers
a) h(t) = e-ªtu(t — 2) b) h(t) = e6tu(3 – t)
c) h(t) = (2e-t
c) h(t) = (2e-t – e(t-100)/100)u(t)
-

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1: We need to determine system is causal and stable system

VIEW

Step 2: determining system is causal and stable system

VIEW

Solution

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 3 steps with 3 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Different Types of System and Its Property

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, electrical-engineering and related others by exploring similar questions and additional content below.

Similar questions

We encouted different types of signals every day, 1) what is contineous signal? Show an example of contineous signals in your experience. 2) What is a discrete time signal? Show an example of discrete time signals in your life. 3) What is a random signal? Show an example of random signals in your life. For the toolbar, press ALT+F10 (PC) or ALT+FN+F10 (Mac). BIUS Paragraph Arial 10pt 三 = x? X2 8 深 T Te ABC Ω - 田田国 Ť (} !!! !!!
Quantize a sequence {-1.2,0.89,-0.5,-0.3,1.2), using a uniform quantize in the range of (-1.5,1.5) with 8 levels write the quantized sequence
The following plot is a step response of a sixth order system. 1. Find the time domain specifications i.e. Tp. Tri. T. and P.O. 2. Find a second order system whose response matches the given response in the following sense a. The percentage overshoot and rise time b. The peak time and settling time c. The rise time and settling time You have to find three systems Aroude 1 14 13) 12 UP E ON ST 06 0.5 DA 03 63 DI 0 6 A W . -CA P.O.= e √1-2 Ts= 4 ζωη Satisfying 2% criteria 10 Control Systems Homework Problem 3 100 M 16 18 20 Step Response for 24 21 20 30 The P.O. -In (100) √²+In² (²00) Tr Tp 2.16+0.60 On 0.3<≤0.8 Onv T 1-32 and 10% to 90% value
The following plot is a step response of a sixth order system. 1. Find the time domain specifications i.e. Tp. Tri. T. and P.O. 2. Find a second order system whose response matches the given response in the following sense a. The percentage overshoot and rise time b. The peak time and settling time c. The rise time and settling time You have to find three systems spred 13) "1 1 aut ON 071 0.3) DA 63) 61 6 2 B Control Systems Homework Problem 3 . 10 12 14 P.O. = e √1-² 100 4 Ts= Con Satisfying 2% criteria 10 18 20 Step Response for 24 The -In (100) 7²+In²(0) Tr 20 P.O. 100 Tp= 2.16+0.60 On 0.3≤ ≤0.8 @n 7 100 1-2 and 10% to 90% value
e) Compute the integral -3" cos(2u)8(5u - 1)du
Please show all integration steps. That is the part I'm most stuck on. Thanks
The signals x(n) and y(n) are given in the following figure. 0.8 0.6 0.4 1 0.2 -0.2 -0.4 -2 -0.6 -0.8 -1 -5 -2 1. #1 (n) = #(2n) + y(n – 2) 2. x2(n) = x(-n) × y(-n) Enter the following signal values for the given index %3D %3D -2, 21(n1): n2 -2, r2(n2): 3.
Find the simplified expression of the given functions below using K-map. Label eachsubcube/grouping. Subcube 1 corresponds to your first term, subcube 2 to the secondterm and so on.
Quantize a sequence (-1.2,0.89,-0.5,-0.3,1.2), using a uniform quantize in the range of (-1.5,1.5) with )4 levels and ii)8 levels write the quantized sequence
For the continuous time signal x [n] shown below, draw each signal in the options and state the x and y values in the figure.(a) x [3 - n](b) x [3n + 1](c) x [n] u [3 - n](d) x [n-2] ? [n - 2](e) x [(n-1)2]
Using the definition of power-type and energy-type signals, 1. Show that x(t) = Aei(2n fot +®) is a power-type signal and its power content is A?. A? 2. Show that x(t) = A cos(2t fot + 0) is powertype and its power i - 3. Show that the unit-step signal u-1(t) is a power-type signal and find its power content. 4. Show that the signal Kr- t>0 x(t) : t<0 is neither an energy-type nor a power-type signal.
zero order hold