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**Using MATLAB** 0 t (s) -4 -3 -2 -1 -1 Entire an equivalent function for the plot shown here using the step function, u(t) 0 t (s) -4 -3 -2 -1 -1 Entire an equivalent function for the plot show...
Using MATLAB 4 8 Entire an equivalent function for the plot shown here using the step function, u(t) 4 8 Entire an equivalent function for the plot shown here using the step function, u(t)
Using MATLAB
4 8 Entire an equivalent function for the plot shown here using the step function, u(t)
4 8 Entire an equivalent function for the plot shown here using the step function, u(t)
ONLY ANSWER IF 100 PERCENT CORRECT USE MATLAB 9 8 6 3 2 t (s) 10 0 2 4 6 8 Entire an equivalent function for the plot shown here using the step function, u(t) 9 8 6 3 2 t (s) 10 0 2 4 6 8 Ent...
ONLY ANSWER IF 100 PERCENT CORRECT
USE MATLAB
9 8 6 3 2 t (s) 10 0 2 4 6 8 Entire an equivalent function for the plot shown here using the step function, u(t)
9 8 6 3 2 t (s) 10 0 2 4 6 8 Entire an equivalent function for the plot shown here using the step function, u(t)
please answer this in matlab so it can match the function. thank you - L -...
please answer this in matlab so it can match the
function. thank you
- L - - - - - -2 t (s) Entire an equivalent function for the plot shown here using the step function, u(t)
Matlab help 1) Given the functions x1()= tu()-tuft-1) and X2(t)=10e-5,11(), do the following: 1. Plotx,(t) and x2(0) using MATLAB 2. Use MATLAB to find and plot x(0=x:@*.x2(t), where * denotes co...
Matlab help
1) Given the functions x1()= tu()-tuft-1) and X2(t)=10e-5,11(), do the following: 1. Plotx,(t) and x2(0) using MATLAB 2. Use MATLAB to find and plot x(0=x:@*.x2(t), where * denotes convolution. 3. Find x(t)=x;()*X2(1) by hand using Laplace transforms. 4. Plot the result of part 3 in MATLAB and compare it to that found in part 2. 2) Given the transfer function shown below, do the following: 1. Find the system's impulse response and plot it using MATLAB 2. Repeat...
1. Consider the circuit shown below. Cl e, (0) c, e。(t) Find the transfer function below using t...
Please help with this dynamics circuit
analysis.
Please show work and explain.
Thank you!!
1. Consider the circuit shown below. Cl e, (0) c, e。(t) Find the transfer function below using time-domain and impedance methods. (a) Determine the differential equation for the relationship between eo(1) and e(1) (b) Find the transfer function E, (s)/E,(s) and determine the system time constant in terms of the circuit element values C, C, and R 17 2 (c) Find the transfer function E, (s)/E,...
Verify the following using MATLAB 2) (a) Consider the following function f(t)=e"" sinwt u (t (1)...
Verify the following using MATLAB
2) (a) Consider the following function f(t)=e"" sinwt u (t (1) .... Write the formula for Laplace transform. L[f)]=F(6) F(6))e"d Where f(t is the function in time domain. F(s) is the function in frequency domain Apply Laplace transform to equation 1. Le sin cot u()]F(s) Consider, f() sin wtu(t). From the frequency shifting theorem, L(e"f()F(s+a) (2) Apply Laplace transform to f(t). F,(s)sin ot u (t)e" "dt Define the step function, u(t u(t)= 1 fort >0...
X(s) U(s) s2+ 10s+625 625 b. Plot/find the time response of this system using MATLAB when...
X(s) U(s) s2+ 10s+625 625 b. Plot/find the time response of this system using MATLAB when subjected to the input signal in Figure 2. Assume t -O, t2 -10-9, and A - 10 Hint: What can the input signal be approximated as? Use the approximation. Plot the response for at least 1 second. 1) Provide the plot. You do not need to print an answer to the hint. 0 Figure 2. Input u(t) c. Redo part b using the transfer...
With matlab plot cos(0, 2pi*t) for values of t such that 3 periods of the function...
With matlab plot cos(0, 2pi*t) for values of t such that 3 periods of the function are shown Remember that Wo=0.4pi Someone specify the use of the radian frequency in their answer
c) For the circuit shown in Figure 3, where u(t) is the unit step function, using...
c) For the circuit shown in Figure 3, where u(t) is the unit step function, using Laplace transform methods and showing all working, find the response i(t) fort> 0. (9 marks) 4H 7e-u(t) v(1) 352 322 Figure 3
Matlab help 1) Given the functions x1()= tu()-tuft-1) and X2(t)=10e-5,11(), do the following: 1. Plotx,(t) and...
Matlab help
1) Given the functions x1()= tu()-tuft-1) and X2(t)=10e-5,11(), do the following: 1. Plotx,(t) and x2(0) using MATLAB 2. Use MATLAB to find and plot x(0=x:@*.x2(t), where * denotes convolution. 3. Find x(t)=x;()*X2(1) by hand using Laplace transforms. 4. Plot the result of part 3 in MATLAB and compare it to that found in part 2. 2) Given the transfer function shown below, do the following: 1. Find the system's impulse response and plot it using MATLAB 2. Repeat...
Using MATLAB
4 8 Entire an equivalent function for the plot shown here using the step function, u(t)
4 8 Entire an equivalent function for the plot shown here using the step function, u(t)
ONLY ANSWER IF 100 PERCENT CORRECT
USE MATLAB
9 8 6 3 2 t (s) 10 0 2 4 6 8 Entire an equivalent function for the plot shown here using the step function, u(t)
9 8 6 3 2 t (s) 10 0 2 4 6 8 Entire an equivalent function for the plot shown here using the step function, u(t)
please answer this in matlab so it can match the
function. thank you
- L - - - - - -2 t (s) Entire an equivalent function for the plot shown here using the step function, u(t)
Matlab help
1) Given the functions x1()= tu()-tuft-1) and X2(t)=10e-5,11(), do the following: 1. Plotx,(t) and x2(0) using MATLAB 2. Use MATLAB to find and plot x(0=x:@*.x2(t), where * denotes convolution. 3. Find x(t)=x;()*X2(1) by hand using Laplace transforms. 4. Plot the result of part 3 in MATLAB and compare it to that found in part 2. 2) Given the transfer function shown below, do the following: 1. Find the system's impulse response and plot it using MATLAB 2. Repeat...
Please help with this dynamics circuit
analysis.
Please show work and explain.
Thank you!!
1. Consider the circuit shown below. Cl e, (0) c, e。(t) Find the transfer function below using time-domain and impedance methods. (a) Determine the differential equation for the relationship between eo(1) and e(1) (b) Find the transfer function E, (s)/E,(s) and determine the system time constant in terms of the circuit element values C, C, and R 17 2 (c) Find the transfer function E, (s)/E,...
Verify the following using MATLAB
2) (a) Consider the following function f(t)=e"" sinwt u (t (1) .... Write the formula for Laplace transform. L[f)]=F(6) F(6))e"d Where f(t is the function in time domain. F(s) is the function in frequency domain Apply Laplace transform to equation 1. Le sin cot u()]F(s) Consider, f() sin wtu(t). From the frequency shifting theorem, L(e"f()F(s+a) (2) Apply Laplace transform to f(t). F,(s)sin ot u (t)e" "dt Define the step function, u(t u(t)= 1 fort >0...
X(s) U(s) s2+ 10s+625 625 b. Plot/find the time response of this system using MATLAB when subjected to the input signal in Figure 2. Assume t -O, t2 -10-9, and A - 10 Hint: What can the input signal be approximated as? Use the approximation. Plot the response for at least 1 second. 1) Provide the plot. You do not need to print an answer to the hint. 0 Figure 2. Input u(t) c. Redo part b using the transfer...
c) For the circuit shown in Figure 3, where u(t) is the unit step function, using Laplace transform methods and showing all working, find the response i(t) fort> 0. (9 marks) 4H 7e-u(t) v(1) 352 322 Figure 3
Matlab help
1) Given the functions x1()= tu()-tuft-1) and X2(t)=10e-5,11(), do the following: 1. Plotx,(t) and x2(0) using MATLAB 2. Use MATLAB to find and plot x(0=x:@*.x2(t), where * denotes convolution. 3. Find x(t)=x;()*X2(1) by hand using Laplace transforms. 4. Plot the result of part 3 in MATLAB and compare it to that found in part 2. 2) Given the transfer function shown below, do the following: 1. Find the system's impulse response and plot it using MATLAB 2. Repeat...
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