Design a high-passfilter that reduces magnitudeof H(jw) to0.4forthe signal with 1000(Y+1) Hz.a)Use 10 Ωresistorand calculate the...

Design a high-passfilter that reduces magnitudeof H(jw) to0.4forthe signal with 1000(Y+1) Hz.a)Use 10 Ωresistorand calculate the value of the inductanceof the filter. Calculate the cutoff frequencyof the filter.b)Design another filter for the same purpose by using the same resistorcombined with a capacitor. Find the value of the capacitance. Findthemagnitudes of H(jw) for 200Hzand20000Hz frequenciesand sketchthe frequency responsegraph of the filter.c)(20+X)Ωresistive load is connected across the output terminals of the firstfilter. Find the new cutoff frequency (in hertz) of the loaded filter. Explain the effect of connecting load by considering the new cutoff frequency. Derive an expression for the new transfer function for the loaded case.

x=2, y=2, z=8 (asap pls)

Expert Solution

Manojponduru answered 8 months ago

Designa low-pass filter that reduces magnitude of H(jw) to 0.4 for the signal with 10(X+4)Hz. a)Use...

Designa low-pass filter that reduces magnitude of H(jw) to 0.4 for the signal with 10(X+4)Hz. a)Use 10 Ω resistor and calculate the value of the inductance of the filter. Calculate the cutoff frequency of the filter .b)Design another filter for the same purpose by using the same resistorcombined with a capacitor.Find the value of the capacitance.Find the magnitudes of H(jw) for 2Hz and 200 Hz frequencies and sketch the frequency response graph of the filter c)(20+Y)Ωresistive loadis connected across the...

Use Classic Runge-Kutta method with h = 1 to solve the system y” - y’ -...

Use Classic Runge-Kutta method with h = 1 to solve the system y” - y’ - 6y = 0, y(0) = 2, y’(0) = 3 on [0,1]

Calculate H using plume rise equations for an 80 m high source (h) with a stack...

Calculate H using plume rise equations for an 80 m high source (h) with a stack diameter = 5 m, stack exit velocity = 12 m/s, wind speed at stack height = 1.9 m/sec, Q=100g/sec. stack gas temperature = 80 oC (353 K), ambient temp = 25 o C (298 K), and sunny day with stability condition Determine the total plume height (_________) m Determine the sigma z at the distance for MGLC. (____________) m Calculate the distance for MGLC...

Pass the signal x5 through the filter h using the command: x6 = filter(h,1,x5); In your...

Pass the signal x5 through the filter h using the command: x6 = filter(h,1,x5); In your report, include a plot of the amplitude spectrum of x6 (use the normalized frequency axis as you did for previous parts of this project).

Calculate the activity at 25 degrees Celsius of NACl(s) at 1, 10, 100, and 1000 bar....

Calculate the activity at 25 degrees Celsius of NACl(s) at 1, 10, 100, and 1000 bar. The density of NaCl at 25 degrees Celsius and 1 bar is 2.16 (g/cm3).

Give 1000 mL of D5W with 25,000 units of heparin to infuse at 30 mL/h. Calculate...

Give 1000 mL of D5W with 25,000 units of heparin to infuse at 30 mL/h. Calculate the hourly dosage of heparin.

A communication network has a bandwidth of 10 kHz. Calculate the signal-to-noise ratio in dB if...

A communication network has a bandwidth of 10 kHz. Calculate the signal-to-noise ratio in dB if the capacity of the channel for a 100Kbps [2 Marks] ii. A communications channel with a bandwidth of 4kHz has a signal power to noise ratio of 7. Determine the Channel Capacity. [2 Marks] ii. The bandwidth in b above is reduced by 25%. How much should the signal power be increased to maintain the same channel capacity?

Question

Design a high-passfilter that reduces magnitudeof H(jw) to0.4forthe signal with 1000(Y+1) Hz.a)Use 10 Ωresistorand calculate the...

Solutions

Expert Solution

Related Solutions