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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...
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...
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...
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)...
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...
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...
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;...
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...
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,...
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...
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...
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...
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