D Exercises . find the step for the curcut shown in Fig. DE5.7, suppose that usct)...
28-29 In Fig. 28-25, solve for the following: a. I8 b.Ic c. VCE OS d. Icisaty e. VCE(om Vcc = 12 V R 1.2 kn Rg=220 k Boc 100 EOJ 2 77pieaA Figure 28-25 ba eall bsol-ot enotsloalso anioc-o daiansi
28-29 In Fig. 28-25, solve for the following: a. I8 b.Ic c. VCE OS d. Icisaty e. VCE(om
Vcc = 12 V R 1.2 kn Rg=220 k Boc 100 EOJ 2 77pieaA Figure 28-25 ba eall bsol-ot enotsloalso anioc-o daiansi
please show step by step
. The circuit shown in Fig. 6 is switched on at time t-0. How long does it take for the capacitor to attain 70% of its final value? Assume the initial voltage across the capacitor to be zero. Also find the time constant of the circuit after the switch is closed. R,-100Ω 200Ω 0.01F Fig. 6
Please explain step by step.
6. In the Atwood's machine shown in Fig. 2, both masses are m. Find their accelerations FIG. 2. Figure for Question 6.
Problem 1 Given the circuit shown below in Fig. 1.1: Write the ordinary differential equation (ODE) for the capacitor voltage. Find the zero-state unit step responses of v(t) and i(t) if vs-u(t) V using each of the following three methods of solving the ODE: a. b. i. ii. Solve the ODE by integrating for the solution; Solve the ODE by assuming homogeneous and particular solutions; Solve the ODE by using the general form solution for a 1st order ODE. iii....
What type of transistor amplifier is shown in Fig. 29-19a? 29-3 +Vcc 15 V = 7.5 k R= 1.2 k R, C B= 100 2 = 1.5 k° in 10 mV RE = 360 CE (a) Calculate the following DC quantities in Fig. 29-19a: 29-4 Ves a. b. VE C. d. Vc e. VCE W
What type of transistor amplifier is shown in Fig. 29-19a? 29-3 +Vcc 15 V = 7.5 k R= 1.2 k R, C B= 100 2...
1 5. Consider a thin cantilever loaded as shown in Fig. P5. Assume that the bending Mzy stress is given by Ox=- = -2x2y and o; = Txy Tyz = 0. What will be the stress componeent in terms of x and y? (a) Oy = 2 (3hºy – y2 – 2h3), (b) oy = 8 (3h²y – y3 – 2h3), (c) 0y = (3h2y – y3 – 2h²), (d) Oy (3hy – y3 – 2h3), (e) none of above...
4) a) Simplify and then find the transfer function of the system shown in Fig. 2; b) Determine the position, velocity and acceleration error constants for the transfer function to be found in a) to the unit step, unit ramp and unit parabolic inputs; c) Model the system given in Fig. 2 by Mat Lab/Simulink if it is possible and plot the output variable to the unit step and ramp functions Fig. 2
1 5. Consider a thin cantilever loaded as shown in Fig. P5. Assume that the bending му stress is given by Ox= -2xy and oz = Txy = Tyz = 0. What will be the stress componeent in terms of x and y? (a) oy = (3hºy - y2 – 243), (b) oy = 5(3hºy - y3 – 24%), (c) oy = (3hạy - y3 - 2h), (d) o, = (3hy - y3 - 2h3). (e) none of above 2h...
Please solve the questions
Q: (10 points) In Fig. 1, a) Using the Differential Equsation Approach, Find Vet) for -? a) Using the Differential Equation Approach find i (0 for D-o? 3:(10 points) In Fig. 3, using the short-cut method, Find Vot) for D-o? Ox: (10 points) In Fig. 2, find 4: (10 Points) In Fig. 4, Using the Short-Cut Method Find it0) for p-0? 04: (Extra Credit In Fig. S, find Vo? 4 k2. 4 k) 4 kn 4A3...
For the system shown in Fig. 1, solve the following problems. (a) Find the transfer function, G(s)X2 (s)/F(s) (b) Does the system oscillate with a unit step input (f (t))? Explain the reason (c) Decide if the system(x2 (t)) is stable with a unit step input (f (t))? Explain the reason 1. 320) 8 kg 2 N/m 4N-s/m 2N-s/m Fig. 1 2. There are two suspensions for a car as shown in Fig. 2 (a) Find the equations of each...