PLEASE HELP ME WITH ALL QUESTIONS

1) Explain the differences between a Low Pass Filter, High Pass filter, Bandpass Filter, and Band reject filter. 2) How would adding more filter sections (above the 3 sections that we analyzed), affect the filter roll-off (shape factor)? 3) What is the difference between a Butterworth Filter and Tchebbycheff filter in terms of passband and stopband responses? 4) The minimum requirement for processing bandwidth of digital data is approximately the reciprocal of the bit time, (for recovery of energy with no more than 1 dB loss, and without using any compression techniques). What would be the required bandwidth of a low pass filter in order to process digital with a bit time of 35 nano-seconds? 5) Based on the criterion of question 4, above, what would be the minimum bit time that could be transmitted through a low pass filter with a bandwidth of 65 KHz? 6) A 220 MHz signal is to be received and processed in a military telemetry receiving system. There are interfering or jamming signals at 55 MHz, 145 MHz, 275 MHz, and 350 MHz also present on the antenna that could interfere with the collection of tactical data. Which of the filter types mentioned in Question #1 would be the best choice for the front end of this receiver system? Be explicit in your explanation. 7) The output of a multiplexing amplifier contains a DC voltage of +18 volts and has multiple sub-carriers of formatted data at 23.6 MHz, 65.5 MHz, 86.77 MHz, and 128.22 MHz. Which of the filter types listed in Question #1 would be acceptable design(s) to remove the DC component, but process all of the formatted data signals? What are the passband and stopband requirements for this filter? Hint: (There may be more than one acceptable design choice for this question) 8) Describe the differences between a vector network analyzer, scalar network analyzer, and standard laboratory sweep generator (Use the internet as required) 9) Referring to Question 7, describe the filter type(s) that would be required to remove the 18 volt DC component, pass the 23.6, 65.5, and 128.22 MHz data sub-carriers, but remove the sub-carrier at 86.77 MHz. Again, there may be more than one acceptable answer to this question.