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Find the value of the state variables and initial conditions for V
in the circuit
4k...
dx dt 1. For the circuit below determine: a) The initial conditions: iz(0+), dix(0*), v(0+), dv(0+)...
dx dt 1. For the circuit below determine: a) The initial conditions: iz(0+), dix(0*), v(0+), dv(0+) b) The circuit differential equation and solve for iz(t), t 2 0 (No credit for Transform techniques) ix VI 102 422 + lo 5+10u(t) 10 H 1/4 F V
1. For the circuit shown, find Vc under DC steady state conditions. ic = C4046, v....
1. For the circuit shown, find Vc under DC steady state conditions. ic = C4046, v. = L di(t) dt 112 522 m 12 V ( + vc +1F
(2) Given the system -3 2 (t) =1-1-1 with zero initial conditions, find the steady-state value of...
(2) Given the system -3 2 (t) =1-1-1 with zero initial conditions, find the steady-state value of the state vector r for a unit step input a(t) = 1(t).
(2) Given the system -3 2 (t) =1-1-1 with zero initial conditions, find the steady-state value of the state vector r for a unit step input a(t) = 1(t).
thank you! 1. Find the steady-state value of v, for the circuit shown 0.6H (200/3) 502...
thank you!
1. Find the steady-state value of v, for the circuit shown 0.6H (200/3) 502 i(t) 0.4mH vſt) v (t) i(t) = 10cos (5000t) A v(t) = 20cos (50001-90°) V 2. Find the steady-state value of v, for the circuit shown 62500 i(t) 25kg 3.2n i vt) 250mH i(t) = 6cos (25,000t) mA
State Equations, initial conditions, and differential equation solution R1 t 0 V0-20V R 1-20? L-2mH VO...
State Equations, initial conditions, and differential equation solution R1 t 0 V0-20V R 1-20? L-2mH VO R2 The switch in the circuit has been closed a long time, and is opened at t = 0' Find the capacitor voltage, V.(t), for t20; in the cases: (a) R2-102; (b) R2-1002; (c) R2-87/17? Hint: Find the initial conditions, then treat the circuit as an RLC circuit via its differential equation
50? 10uF AC 1mH Vab Vin Q4b Given V 30 cos (10,000 t) Find the Thévenin...
50? 10uF AC 1mH Vab Vin Q4b Given V 30 cos (10,000 t) Find the Thévenin phasor equivalent of this circuit. ZTta (rectangular form) VTh (rectangular form) 2 (Ohm) Check
Problem 4.1 For the circuit shown in figure 4.1, there is no initial energy storage and v = 10u(t) V Please explain clearly! Thanks! Problem 4.1 2.5 H For the circuit shown in figure 4.1, there is no...
Problem 4.1
For the circuit shown in figure 4.1, there is no initial energy
storage and v = 10u(t) V
Please explain clearly! Thanks!
Problem 4.1 2.5 H For the circuit shown in figure 4.1, there is no initial energy storage and v- 10 u(t) V (a) Obtain the circuit in the s-domain (b) Determine the current Los) (c) Determine for io(t) for t>0. 10Ω to 5 H 4 H Fig. 4.1
Problem 4.1 2.5 H For the circuit shown...
1. Find the steady-state value of v, for the circuit shown 0.6mH (200/3) uF 5Q i(t)...
1. Find the steady-state value of v, for the circuit shown 0.6mH (200/3) uF 5Q i(t) 0.4mH t v (t) i (t)10cos (5000t) A v (t) 20cos (5000t-90°) v
Let v,(t) = 140 sin(5000+) V in the circuit Find the steady-state value of the current...
Let v,(t) = 140 sin(5000+) V in the circuit Find the steady-state value of the current ij(t) in amperes at t = 6.32 milisecor Round the result to three decimal places. 1012 2 mH vg 2 mH 8 mH 30 Ω w Select one: a. 0.366 Ob. 1.966 O c.0.372 d. -1.966 e. -0,366
Problem 7 R1 GV(t) Oa Vst) 9cos (500t)V R 5000 R2 3000 C 10uF R2 Vs(t) V(t) G 2 C ob Consider the circuit above to be i...
Problem 7 R1 GV(t) Oa Vst) 9cos (500t)V R 5000 R2 3000 C 10uF R2 Vs(t) V(t) G 2 C ob Consider the circuit above to be in steady state and find the Thevenin equivalent between terminals a and b
Problem 7 R1 GV(t) Oa Vst) 9cos (500t)V R 5000 R2 3000 C 10uF R2 Vs(t) V(t) G 2 C ob Consider the circuit above to be in steady state and find the Thevenin equivalent between terminals a and b
dx dt 1. For the circuit below determine: a) The initial conditions: iz(0+), dix(0*), v(0+), dv(0+) b) The circuit differential equation and solve for iz(t), t 2 0 (No credit for Transform techniques) ix VI 102 422 + lo 5+10u(t) 10 H 1/4 F V
1. For the circuit shown, find Vc under DC steady state conditions. ic = C4046, v. = L di(t) dt 112 522 m 12 V ( + vc +1F
(2) Given the system -3 2 (t) =1-1-1 with zero initial conditions, find the steady-state value of the state vector r for a unit step input a(t) = 1(t).
(2) Given the system -3 2 (t) =1-1-1 with zero initial conditions, find the steady-state value of the state vector r for a unit step input a(t) = 1(t).
thank you!
1. Find the steady-state value of v, for the circuit shown 0.6H (200/3) 502 i(t) 0.4mH vſt) v (t) i(t) = 10cos (5000t) A v(t) = 20cos (50001-90°) V 2. Find the steady-state value of v, for the circuit shown 62500 i(t) 25kg 3.2n i vt) 250mH i(t) = 6cos (25,000t) mA
State Equations, initial conditions, and differential equation solution R1 t 0 V0-20V R 1-20? L-2mH VO R2 The switch in the circuit has been closed a long time, and is opened at t = 0' Find the capacitor voltage, V.(t), for t20; in the cases: (a) R2-102; (b) R2-1002; (c) R2-87/17? Hint: Find the initial conditions, then treat the circuit as an RLC circuit via its differential equation
50? 10uF AC 1mH Vab Vin Q4b Given V 30 cos (10,000 t) Find the Thévenin phasor equivalent of this circuit. ZTta (rectangular form) VTh (rectangular form) 2 (Ohm) Check
Problem 4.1
For the circuit shown in figure 4.1, there is no initial energy
storage and v = 10u(t) V
Please explain clearly! Thanks!
Problem 4.1 2.5 H For the circuit shown in figure 4.1, there is no initial energy storage and v- 10 u(t) V (a) Obtain the circuit in the s-domain (b) Determine the current Los) (c) Determine for io(t) for t>0. 10Ω to 5 H 4 H Fig. 4.1
Problem 4.1 2.5 H For the circuit shown...
1. Find the steady-state value of v, for the circuit shown 0.6mH (200/3) uF 5Q i(t) 0.4mH t v (t) i (t)10cos (5000t) A v (t) 20cos (5000t-90°) v
Let v,(t) = 140 sin(5000+) V in the circuit Find the steady-state value of the current ij(t) in amperes at t = 6.32 milisecor Round the result to three decimal places. 1012 2 mH vg 2 mH 8 mH 30 Ω w Select one: a. 0.366 Ob. 1.966 O c.0.372 d. -1.966 e. -0,366
Problem 7 R1 GV(t) Oa Vst) 9cos (500t)V R 5000 R2 3000 C 10uF R2 Vs(t) V(t) G 2 C ob Consider the circuit above to be in steady state and find the Thevenin equivalent between terminals a and b
Problem 7 R1 GV(t) Oa Vst) 9cos (500t)V R 5000 R2 3000 C 10uF R2 Vs(t) V(t) G 2 C ob Consider the circuit above to be in steady state and find the Thevenin equivalent between terminals a and b
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