The correct answer is circled but I need the steps for how to find it. Please write clearly!
The correct answer is circled but I need the steps for how to find it. Please...
please answer all questions and show all steps Vout Figure 2: RC Circuit 2. (15pts) Derive the equation for the frequency response H(ju) of the RC circuit in Figure 2. Take the inverse transform of H (ju) to compute the impulse response h(t). Compute the magnitude response, H(jw). Is this a low-pass or high pass filter? Explain your answer. 3. (10pts) Let h(t)2u(t) and (t)(t). Use the Fourier transform to compute the output of the system
The circled answer is wrong, please show clear steps to arrive to a correct answer I will rate more points. 2) You are given the following information about an insurer's book of business: . Policyholders are divided in three groups: low-risk, medium-risk, and of policyholders are considered medium-risk and 50% are considered high-risk. low-risk. . The probability that a low-risk policyholder has filed a claim is 0.05 .The probability that a randomly selected policyholder is considered medium- risk and has...
Please Give Me the ANS only Choose the correct answer. 1. An RLC circuit with output on the capacitor is a... a) low pass filter b) high pass filter c) band pass filter d) band stop filter 2. To build a RLC low pass circuit the output has to be taken on... a) the resistor b) the inductor c) the capacitor d) capacitor & inductor 3. In an RLC circuit if R-20092, L=0.9mH and C-40uF what is the value of...
i)Derive (showing detailed steps) the transfer function T(s)? put T(s) in the standard format and hence show that ? ii)show that m=4Q and w=2q/rc Let R=10k Ω , compute the value of the capacitor C in order to obtain a second Butterworth (i.e. maximally flat) filter with ωp=10 rad/seconds and Amax=0.5 dB.? ion 1 (12 Mar Consider the given Single-Amplifier Biquadratic (SAB) active low-pass filter circuit (to the right) i. Derive (showing detailed steps) the transfer function T(s)Vofthis circuit, please...
this is a question from a review for a test. please help! An RC circuit with R = 10 Kilo-ohms and C = 40 nano-Farads is constructed to serve as an example of a first order system and as a filter. The capacitor is uncharged when the circuit is assembled. Two sources of input voltage to the circuit are possible, a DC power supply or a function generator. 1a) (6 points) • What input source would be used to determine...
Answer a, b, c, d A circuit consists of a resistor R connected in series with a capacitor C, as shown in Fig.1 EL Eo Fig 1. The capacitor C is connected in series with the resistor R The equation which describes this circuit when subject to a step function is given below di 0.3.21-9 dt a) What is the time constant r of this system? b) Assume zero initial condition (0 when r0), find the solution i() of the...
Problem 8.36 requires reference to 8.13, I only need 8.36 solved 8.36 High-pass filter** Consider the setup in Problem 8.13, but with the capacor replaced by an inductor. Calculate the ratio Ivl2/ Choose values for R and L to make l Vil2 = 0.1 for a 100 Hz signal. This circuit is the most primitive of "high-pass" filters, providing attenuation that increases with decreasing frequency. Show that, for sufficiently low frequencies, the signal power is reduced by a factor 1/4...
please need correct answer. I will upvote. Design a second-order digital bandpass Butterworth filter with a lower cutoff frequency of 1.9 kHz, an upper cutoff frequency 2.1 kHz, and a passband ripple of 3dB at a sampling frequency of 8,000 Hz. a. Determine the transfer function and difference equation. b. Use MATLAB to plot the magnitude and phase frequency respon
please show steps. thank you! What is the equivalent impedance of this circuit at a frequency of 100 rad/s. 100 mH 000 10 22 a. Zeq = (10+j10)12 b. Za = (5+ j5)22 C. Zeq = (10+ j0.1992 d. Z g = (0.1+j10)m12 e. Za =(5+j50)2
uge b of Problem 5 (Seven points if only the correct answer is circled. Four points if two answers are circled and one is correct.) armature current of a de machine is controlled with a PI controller. The controller is designed to cancel the electrical time constant. The following is known about the machine KPWM-: 15 (PWM converter gain) o-2400 rad/s (system bandwidth) R.-2.0 Ω (Armature resistance) 16 ms (electrical time constant) a) What is the armature inductance? i)2 16m...