An RC circuit is a first order system. The 90% rise time of a given circuit...

Design an RC circuit, get the time constant of RC circuit within 5% of 4.17ms. Available...

Design an RC circuit, get the time constant of RC circuit within 5% of 4.17ms. Available values of resistance are 5, 10, 20, 30 and 39, and values of capacitance are 100, 150 and 470uF. Draw the circuit including the placement of the ammeter, which will measure the current through the battery. Lable all relevant values. Show all of the calculations you did in choosing your circuit values.

Design an active-RC low pass second order Butterworth filter for a cutoff frequency of 1 kHz,...

Design an active-RC low pass second order Butterworth filter for a cutoff frequency of 1 kHz, and a pass band gain of 2 V/V. Use a 741 Op Amp. If using Table I, use a capacitor value of 0.1 μF for C and C1, otherwise you may use any capacitors available in the lab. If applicable, make an excel worksheet showing the calculations required for the above design.  Choose appropriate real resistor values for the designed circuit and simulate this circuit...

2. The finite conversion time of an A/D has serious consequences on the rate of change...

2. The finite conversion time of an A/D has serious consequences on the rate of change of signals presented for conversion. The A/D output will be in error if the input voltage changes more than one LSB during the conversion time of the A/D. Eq. 3 of the handout characterizes this change of the input signal as: ?V = TA (dVin/dt) Where TA is the conversion time of the A/D and dVin/dt is the derivative of the input voltage. For...

Like explained in the experiment, suppose you first charge the capacitors in your RC circuit until...

Like explained in the experiment, suppose you first charge the capacitors in your RC circuit until the potential difference on the capacitor saturates at some initial value supplied by the power supply. Then you start to discharge your capacitor and read the potential difference on the capacitor in at different times. When you plot your data as lnV versus time, you make a linear fit which looks like the one on page 5 of your lab sheet. If the slope...

Like explained in the experiment, suppose you first charge the capacitors in your RC circuit until...

Like explained in the experiment, suppose you first charge the capacitors in your RC circuit until the potential difference on the capacitor saturates at some initial value supplied by the power supply. Then you start to discharge your capacitor and read the potential difference on the capacitor in at different times. When you plot your data as lnV versus time, you make a linear fit which looks like the one on page 5 of your lab sheet. If the slope...

Like explained in the experiment, suppose you first charge the capacitors in your RC circuit until...

Like explained in the experiment, suppose you first charge the capacitors in your RC circuit until the potential difference on the capacitor saturates at some initial value supplied by the power supply. Then you start to discharge your capacitor and read the potential difference on the capacitor in at different times. When you plot your data as lnV versus time, you make a linear fit which looks like the one on page 5 of your lab sheet. If the slope...

Consider a system with two CSTRs in series (i.e., the output from the first reactor becomes...

Consider a system with two CSTRs in series (i.e., the output from the first reactor becomes the input to the second reactor). Assume a pollutant enters the system and undergoes first-order decay with a rate constant k. (a) What mean residence time, θ = V/Q, is required in the first reactor to achieve 90 percent removal in that reactor (i.e., C1/Cin = 0.1, where C1 is the steady-state outlet concentration for a fixed inlet concentration Cin)? Express your answer as...

In a two-story voltage amplifier circuit, there is PNP on the first floor and NPN on...

In a two-story voltage amplifier circuit, there is PNP on the first floor and NPN on the second floor. A total of 10 resistors and a total of 5 capacitors were used in the circuit, 5 resistors per floor. Re resistance of PNP transistor is 63.31 Ω and re resistance of NPN transistor is 15.25 Ω. The input impedance of the first floor is 212.36 Ω and the input impedance of the second floor is 9.1 K Ω. There is...

QUESTION 6 1. The time constant in an RC circuit is the time it takes a....

QUESTION 6 1. The time constant in an RC circuit is the time it takes a. so that the current reaches its maximum value b. so that the capacitor is fully charged. C. in which the current decreased 37% of its initial value. d. so that the current drops to zero. QUESTION 7 1. A charged particle is fired at a speed of 5.2x10 ^ 4 m / s at an angle of 35 degrees to a magnetic field of...

A step change of magnitude 4 is introduced into a second order system with gain of...

A step change of magnitude 4 is introduced into a second order system with gain of 10, time constant of 1, and damping coefficient of 0.8. Determine the percent overshoot, rise time, maximum value of Y(t), ultimate value of Y(t), and the period of oscillation.