Finding Laplace Transform And Inverse Laplace Transform
INLAB Report (No 1):
- Find Laplace Transform for following time domain signal using MATLAB.
- Consider using "sym" function to define time domain signal.
- Can you guess MATLAB function which performs Laplace Transform?
- Use help in MATLAB to find the syntax for function.
INLAB Report (No 2) :
- Find Laplace Transform for following time domain signal using MATLAB.
- Consider using "dirac" function to define delta function.
- Include screen shot of your code and results in report.
INLAB Report (No 3):
- Perform Partial Fraction Expansion for following function.
- Consider using "residue" function to find partial fraction expansion.
- Use help in MATLAB to find the syntax for function.
- Include screen shot of your code and results in report.
INLAB Report (No 4):
- Find Inverse Laplace Transform for following frequency domain signal using Partial Fraction Expansion.
- Find Inverse Laplace Transform for following time domain signal using MATLAB.
- Consider using "sym" function to define frequency (s-plane) domain signal.
- Can you guess MATLAB function which performs Inverse Laplace Transform?
- Use help in MATLAB to find the syntax for function.
- Include screen shot of your code and results in report.
INLAB Report (No 5):
- Find Inverse Laplace Transform for following frequency domain signal using Partial Fraction Expansion.
- Find Inverse Laplace Transform for following time domain signal using MATLAB.
- Consider using "sym" function to define frequency (s-plane) domain signal.
- Can you guess MATLAB function which performs Inverse Laplace Transform?
- Use help in MATLAB to find the syntax for function.
- Include screen shot of your code and results in report.
INLAB Report (No 6):
- Recall result from R-L-C circuit.
- Find time domain current i(t ) using Inverse Laplace Transform in MATLAB.
- Include screen shot of your code and results in report.
Generating Bode Plot And Frequency Response
INLAB Report (No 7):
- Generate Frequency Amplitude and Phase Plot for following frequency response system using MATLAB.
- Define a frequency variable w from 0 to 200 [kHz] with step size of 1 [Hz].
- Consider using "freqs" function to define frequency response of system.
- Consider using "abs" function to plot amplitude response of system.
- Consider using "angle" function to plot phase response of system.
- Plot amplitude response w.r.t. frequency.
- Plot phase response w.r.t. frequency.
- Use help in MATLAB to find the syntax for function.
- Include screen shot of your code and results in report.
INLAB Report (No 8):
- Generate Frequency Amplitude and Phase Plot for following frequency response system using MATLAB.
- Repeat (No 8), but this time use "freqs" function to plot amplitude and phase response of system.
- Use help in MATLAB to find the syntax for function.
- Include screen shot of your code and results in report.
INLAB Report (No 9):
- Generate Bode Plot for following frequency response system using MATLAB.
- Can you guess MATLAB function which generate Bode Plot?
- Repeat (No 8), but this time use this function to plot amplitude and phase response of system.
- Use help in MATLAB to find the syntax for function.
- Include screen shot of your code and results in report.
INLAB Report (No 11):
- Generate Frequency Amplitude and Phase Plot for following frequency response system using MATLAB.
- Generate Bode Plot for the same frequency response system using MATLAB.
- Include screen shot of your code and results in report.
INLAB Report (No 12):
- Generate Frequency Amplitude and Phase Plot for following frequency response system using MATLAB.
- Generate Bode Plot for the same frequency response system using MATLAB.
- Include screen shot of your code and results in report.
INLAB Report (No 13):
- Generate Frequency Amplitude and Phase Plot for following frequency response system using MATLAB.
- Generate Bode Plot for the same frequency response system using MATLAB.
- Include screen shot of your code and results in report.
Attachment:- Assignment File.rar