Homework Answers
(1) When a polynomial for the numerator of a transfer function is represented by the vector...
(1) When a polynomial for the numerator of a transfer function is represented by the vector [1 3 0j in Matlab, what is the polynomial (in )? Ss35 (2) What is the final value of a response which is given b1612 (o)- (0)-3(0)3 ()undefined (3) Determine the damping ratio of the system described by)235 )1(b) 2.5 (c)5 (d) 10 (e) 25 (f) something else (4) (True or alse) The system with the following characteristic equation is stable. (5) Marginally stable...
Q.3 Three identical compression springs were used to support a platform ( weight| = 300 lbs)...
Q.3 Three identical compression springs were used to support a platform ( weight| = 300 lbs) shown in figure below. Spring properties are: ASTM A 227 steel wire, hard drawn ( Fig 19-8), G=11.5*10°, E = 28.6*10°, total number of coils are 7, both ends are squared and ground, wire diameter = 0.15 in, outside diameter = 1.5 inches, free length = 4 inches. All ends of all springs are fixed. Find stability of this system. (7) %3D %3D %3D...
Please solve the following problem. 6-33 In Fig. 6-43, solve for , R R2, V2, V,...
Please solve the following problem.
6-33 In Fig. 6-43, solve for , R R2, V2, V, V, , Vo, 2 /3 l 5 and l Figure 6-43 V,=5.4 V R1 = 180 Ω P/2 K. = 30 V 4 1.5 kΩ Re-100 Ω
2 part a and b , 3 part a and b 7 marks 2. Consider the Fourier transform pair a) Use the appropriate Fourier transform properties to find the Fourier transform of te-lti 5 marks) b) Use the r...
2 part a and b , 3 part a and b
7 marks 2. Consider the Fourier transform pair a) Use the appropriate Fourier transform properties to find the Fourier transform of te-lti 5 marks) b) Use the results from part (a) and the duality property to determine the Fourier transform of 4t f(t) = (1 +t2)2 [15 marks 3. For the discrete time system shown in fig. 1 a) Determine the transfer function Hint: The best starting point is...
For the system shown in Fig. 1, solve the following problems. (a) Find the transfer function, G(s...
For the system shown in Fig. 1, solve the following problems. (a) Find the transfer function, G(s)X2 (s)/F(s) (b) Does the system oscillate with a unit step input (f (t))? Explain the reason (c) Decide if the system(x2 (t)) is stable with a unit step input (f (t))? Explain the reason 1. 320) 8 kg 2 N/m 4N-s/m 2N-s/m Fig. 1 2. There are two suspensions for a car as shown in Fig. 2 (a) Find the equations of each...
Can you solve the 3 questions using the posted figure? The wave form figure is Fig...
Can you solve the 3 questions using the posted figure? The wave
form figure is Fig P3-3. The equations for 3-4 are attached too.
Thank you
For the waveforms in Fig. P3-3, calculate their average value and the rms values of the fundamental and the harmonic frequency components. 3-3 34 In the waveforms of Fig. P3-3 of Problem 3-3, A = 10 and u = 20° (14 = u2-u/2), where applicable. Calculate their total rms values as follows: (a) By...
please explain word by word how to solve this problem. please provide a response to question 1, 2 , 3 Negative Space Task Fig. 2 Fig. 3 Fig. 4 1. What would figure 100 look like? 2. Imagine you c...
please explain word by word how to solve this problem. please
provide a response to question 1, 2 , 3
Negative Space Task Fig. 2 Fig. 3 Fig. 4 1. What would figure 100 look like? 2. Imagine you could continue your pattern backward. How many tiles would there be in Figure -1? (That's figure negative one, whatever that means!) 3. What would Figure-1 look like?
Negative Space Task Fig. 2 Fig. 3 Fig. 4 1. What would figure 100...
please answer 3.1,3.2 and 3.3. First 3 photos are for fig1, fig 2 and fig 4....
please answer 3.1,3.2 and 3.3.
First 3 photos are for fig1, fig 2 and fig 4.
C1 310k 15F Figure - 1 RC Circuit (Discharging Period) In a source free RC circuit, we assume there was a DC voltage source acoss the capacitor such that Vo(t) = V at t=0, and it was suddenly disconnected at t= 0, shown as Figure 1. Then we can conclude that: • T1 = R is the time constant. Tydenotes the rapidity with which...
Part V: Solve Question 2 Part VI: Solve Questions 2 & 3 Part V (30 points each): Solve ONE of the following. and solve an IVP in order to receive any credit. In each problem you must complete...
Part V: Solve Question 2
Part VI: Solve Questions 2 & 3
Part V (30 points each): Solve ONE of the following. and solve an IVP in order to receive any credit. In each problem you must completely set up 1. A 1000 liter tank initially contains 600 liters of salt water with 50 grams of salt dissolved in it. Salt water flows into the tank at a rate of 2 liters/hr with a concentration of 6 grams/liter and a...
Yes, this is one problem. Please solve ALL PARTS. Guaranteed thumbs up for the person who solves it. 3 1. Photodiode...
Yes, this is one problem. Please solve ALL PARTS. Guaranteed
thumbs up for the person who solves it.
3 1. Photodiode amplifier circuit You are designinga CF photosensor circuit for a light detection and ranging LiDAR) system in autonomous vehicles. The circuit utilizes a transimpedance amplifier to convert low-level RF photodiode current signal to a usable voltage output. It consists of a photodiode, an amplifier, and feedback capacitor/resistor pair as shown in Figure 1. We will derive simple equations to...
(1) When a polynomial for the numerator of a transfer function is represented by the vector [1 3 0j in Matlab, what is the polynomial (in )? Ss35 (2) What is the final value of a response which is given b1612 (o)- (0)-3(0)3 ()undefined (3) Determine the damping ratio of the system described by)235 )1(b) 2.5 (c)5 (d) 10 (e) 25 (f) something else (4) (True or alse) The system with the following characteristic equation is stable. (5) Marginally stable...
Q.3 Three identical compression springs were used to support a platform ( weight| = 300 lbs) shown in figure below. Spring properties are: ASTM A 227 steel wire, hard drawn ( Fig 19-8), G=11.5*10°, E = 28.6*10°, total number of coils are 7, both ends are squared and ground, wire diameter = 0.15 in, outside diameter = 1.5 inches, free length = 4 inches. All ends of all springs are fixed. Find stability of this system. (7) %3D %3D %3D...
Please solve the following problem.
6-33 In Fig. 6-43, solve for , R R2, V2, V, V, , Vo, 2 /3 l 5 and l Figure 6-43 V,=5.4 V R1 = 180 Ω P/2 K. = 30 V 4 1.5 kΩ Re-100 Ω
2 part a and b , 3 part a and b
7 marks 2. Consider the Fourier transform pair a) Use the appropriate Fourier transform properties to find the Fourier transform of te-lti 5 marks) b) Use the results from part (a) and the duality property to determine the Fourier transform of 4t f(t) = (1 +t2)2 [15 marks 3. For the discrete time system shown in fig. 1 a) Determine the transfer function Hint: The best starting point is...
For the system shown in Fig. 1, solve the following problems. (a) Find the transfer function, G(s)X2 (s)/F(s) (b) Does the system oscillate with a unit step input (f (t))? Explain the reason (c) Decide if the system(x2 (t)) is stable with a unit step input (f (t))? Explain the reason 1. 320) 8 kg 2 N/m 4N-s/m 2N-s/m Fig. 1 2. There are two suspensions for a car as shown in Fig. 2 (a) Find the equations of each...
Can you solve the 3 questions using the posted figure? The wave
form figure is Fig P3-3. The equations for 3-4 are attached too.
Thank you
For the waveforms in Fig. P3-3, calculate their average value and the rms values of the fundamental and the harmonic frequency components. 3-3 34 In the waveforms of Fig. P3-3 of Problem 3-3, A = 10 and u = 20° (14 = u2-u/2), where applicable. Calculate their total rms values as follows: (a) By...
please explain word by word how to solve this problem. please
provide a response to question 1, 2 , 3
Negative Space Task Fig. 2 Fig. 3 Fig. 4 1. What would figure 100 look like? 2. Imagine you could continue your pattern backward. How many tiles would there be in Figure -1? (That's figure negative one, whatever that means!) 3. What would Figure-1 look like?
Negative Space Task Fig. 2 Fig. 3 Fig. 4 1. What would figure 100...
please answer 3.1,3.2 and 3.3.
First 3 photos are for fig1, fig 2 and fig 4.
C1 310k 15F Figure - 1 RC Circuit (Discharging Period) In a source free RC circuit, we assume there was a DC voltage source acoss the capacitor such that Vo(t) = V at t=0, and it was suddenly disconnected at t= 0, shown as Figure 1. Then we can conclude that: • T1 = R is the time constant. Tydenotes the rapidity with which...
Part V: Solve Question 2
Part VI: Solve Questions 2 & 3
Part V (30 points each): Solve ONE of the following. and solve an IVP in order to receive any credit. In each problem you must completely set up 1. A 1000 liter tank initially contains 600 liters of salt water with 50 grams of salt dissolved in it. Salt water flows into the tank at a rate of 2 liters/hr with a concentration of 6 grams/liter and a...
Yes, this is one problem. Please solve ALL PARTS. Guaranteed
thumbs up for the person who solves it.
3 1. Photodiode amplifier circuit You are designinga CF photosensor circuit for a light detection and ranging LiDAR) system in autonomous vehicles. The circuit utilizes a transimpedance amplifier to convert low-level RF photodiode current signal to a usable voltage output. It consists of a photodiode, an amplifier, and feedback capacitor/resistor pair as shown in Figure 1. We will derive simple equations to...
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