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(See Example 10.2-1 in the textbook for the solution to a similar problem.) Consider the sinusoids...
Example 10.3-2 (See Example 10.3-2 in the textbook for the solution to a similar problem.) Consider...
Example 10.3-2 (See Example 10.3-2 in the textbook for the solution to a similar problem.) Consider these phasors: VI: 16 /126-v and V2 -54+j 18 V Convert V1 to rectangular form and V2 to polar form to get Determine the values of a and b, the real and imaginary parts of V1 v and b( Determine the values of A and e, the magintude and angle of V2
Example 10.3-3 (See Example 10.3-3 in the textbook for the solution to a similar problem.) Consider...
Example 10.3-3 (See Example 10.3-3 in the textbook for the solution to a similar problem.) Consider these phasors: V1 = 32.51 116 o V and v, = 50.6 / 163 ° V =-14.2 +j 29.2 V =-48.3 +/ 15.1 V The sum of these phasors can be represented as Determine the values of a and b, the real and imaginary parts of V1 + V2: lv V and b- Determine the values of A and θ, the magnitude and angle...
Example 10.3-2 (See Example 10.3-2 in the textbook for the solution to a similar problem.) Consider...
Example 10.3-2 (See Example 10.3-2 in the textbook for the solution to a similar problem.) Consider these phasors: V, = 17 (106° V and V2 = -42 +j15 V Convert V, to rectangular form and V, to polar form to get Vi = a + b V and V, = A/ V Determine the values of a and b, the real and imaginary parts of V: V and b = Determine the values of A and e, the magintude and...
Example 10.3-2 (See Example 10.3-2 in the textbook for the solution to a similar problem.) Consider...
Example 10.3-2 (See Example 10.3-2 in the textbook for the solution to a similar problem.) Consider these phasors: v, = 18 /115-v and V2--484/28 V Convert V1 to rectangular form and V2 to polar form to get Determine the values of a and b, the real and imaginary parts of V V and b Determine the values of A and θ, the magintude and angle of V2 : A- V and θ =
Example 7.2-3 See Example 7.2-3 in the textbook for the solution to a similar problem. (See...
Example 7.2-3 See Example 7.2-3 in the textbook for the solution to a similar problem. (See Example Z.2-3 in the textbook for the solution to a similar problem.) i(), mA 1 23 (S) -6 123(S) -9 is figure shows a circuit together with two plots. The plots represent the current and voltage of the capacitor in the circuit. Determine the value of the capacitance, C, in mF. 50 c= mF the tolerance is +/-2%
Example 10.3-3 (Companion Problem 2) (See Example 10.3-3 in the textbook for the solution to a...
Example 10.3-3 (Companion Problem 2) (See Example 10.3-3 in the textbook for the solution to a similar problem.) Consider these phasors: v,-41.1 142 V 398 10.1 V and V2 23.2 79.8 V 4.10 22.8v The product of these phasors can be represented as Determine the values of a and b, the real and imaginary parts of V1/V2: Vand b Determine the values of A and θ, the magnitude and angle of V1 /V2 : V and θ 0 Question Attempts:...
Example 10.5-3 (See Example 10.5-3 in the textbook for the solution to a similar problem.) 2...
Example 10.5-3 (See Example 10.5-3 in the textbook for the solution to a similar problem.) 2 mF 13o This circuit is at steady state. The input to this circuit is the voltage source voltage, vs(t), given by Vs(t) = 45cos(20t + (-50° ) | V The output voltage, Vo(t), can be expressed as Vo (t) = A cos(20t+ θ) v where A and θ are constants such that A > 0 and-180° < θ < 180°. Determine the values of...
Example 8.3-3 (Companion Problems) (See Example 8.3-3 in the textbook for the solution to a similar...
Example 8.3-3 (Companion Problems) (See Example 8.3-3 in the textbook for the solution to a similar problem.) 1-0 50 kQ 20 k2 24 V ( The switch in this circuit has been closed for a long time, and the circuit has reached steady state before the switch opens at time t-0. After the switch opens, the capacitor voltage is given by v)A+ Be v where A, B and a are constants. Determine the values of A, B and a. V...
Example 10.5-1 (See Example 10.5-1 in the textbook for the solution to a similar problem.) 68Ω...
Example 10.5-1 (See Example 10.5-1 in the textbook for the solution to a similar problem.) 68Ω i(t) yso) 6.0H This circuit is at steady state. The input to this circuit is the voltage source voltage, vs(t), given by Vs(t) = 22cos(12t + (35° ) v The steady-state mesh current, (t), can be expressed as i(t)-A cos(12t + θ) mA 1809. Determine the values of the constants A and θ: where A and θ are constants such that A > 0...
4. Use the circuit in UMF 5.39 but do the following (see similar example for UMF...
4. Use the circuit in UMF 5.39 but do the following (see similar example for UMF P5.35). a. Do the problem as stated. b. At t=1.25seconds, the switch is moved back to position 1. Find v(t) for t 1.25s C. Plot (using Matlab), v(t) and it for 0 St<12s *5.39 The switch in the circuit of Fig. P5.39 had been in position 1 for a long time until it was moved to position 2 at t = 0. Determine u(t)...
Example 10.3-2 (See Example 10.3-2 in the textbook for the solution to a similar problem.) Consider these phasors: VI: 16 /126-v and V2 -54+j 18 V Convert V1 to rectangular form and V2 to polar form to get Determine the values of a and b, the real and imaginary parts of V1 v and b( Determine the values of A and e, the magintude and angle of V2
Example 10.3-3 (See Example 10.3-3 in the textbook for the solution to a similar problem.) Consider these phasors: V1 = 32.51 116 o V and v, = 50.6 / 163 ° V =-14.2 +j 29.2 V =-48.3 +/ 15.1 V The sum of these phasors can be represented as Determine the values of a and b, the real and imaginary parts of V1 + V2: lv V and b- Determine the values of A and θ, the magnitude and angle...
Example 10.3-2 (See Example 10.3-2 in the textbook for the solution to a similar problem.) Consider these phasors: V, = 17 (106° V and V2 = -42 +j15 V Convert V, to rectangular form and V, to polar form to get Vi = a + b V and V, = A/ V Determine the values of a and b, the real and imaginary parts of V: V and b = Determine the values of A and e, the magintude and...
Example 10.3-2 (See Example 10.3-2 in the textbook for the solution to a similar problem.) Consider these phasors: v, = 18 /115-v and V2--484/28 V Convert V1 to rectangular form and V2 to polar form to get Determine the values of a and b, the real and imaginary parts of V V and b Determine the values of A and θ, the magintude and angle of V2 : A- V and θ =
Example 7.2-3 See Example 7.2-3 in the textbook for the solution to a similar problem. (See Example Z.2-3 in the textbook for the solution to a similar problem.) i(), mA 1 23 (S) -6 123(S) -9 is figure shows a circuit together with two plots. The plots represent the current and voltage of the capacitor in the circuit. Determine the value of the capacitance, C, in mF. 50 c= mF the tolerance is +/-2%
Example 10.3-3 (Companion Problem 2) (See Example 10.3-3 in the textbook for the solution to a similar problem.) Consider these phasors: v,-41.1 142 V 398 10.1 V and V2 23.2 79.8 V 4.10 22.8v The product of these phasors can be represented as Determine the values of a and b, the real and imaginary parts of V1/V2: Vand b Determine the values of A and θ, the magnitude and angle of V1 /V2 : V and θ 0 Question Attempts:...
Example 10.5-3 (See Example 10.5-3 in the textbook for the solution to a similar problem.) 2 mF 13o This circuit is at steady state. The input to this circuit is the voltage source voltage, vs(t), given by Vs(t) = 45cos(20t + (-50° ) | V The output voltage, Vo(t), can be expressed as Vo (t) = A cos(20t+ θ) v where A and θ are constants such that A > 0 and-180° < θ < 180°. Determine the values of...
Example 8.3-3 (Companion Problems) (See Example 8.3-3 in the textbook for the solution to a similar problem.) 1-0 50 kQ 20 k2 24 V ( The switch in this circuit has been closed for a long time, and the circuit has reached steady state before the switch opens at time t-0. After the switch opens, the capacitor voltage is given by v)A+ Be v where A, B and a are constants. Determine the values of A, B and a. V...
Example 10.5-1 (See Example 10.5-1 in the textbook for the solution to a similar problem.) 68Ω i(t) yso) 6.0H This circuit is at steady state. The input to this circuit is the voltage source voltage, vs(t), given by Vs(t) = 22cos(12t + (35° ) v The steady-state mesh current, (t), can be expressed as i(t)-A cos(12t + θ) mA 1809. Determine the values of the constants A and θ: where A and θ are constants such that A > 0...
4. Use the circuit in UMF 5.39 but do the following (see similar example for UMF P5.35). a. Do the problem as stated. b. At t=1.25seconds, the switch is moved back to position 1. Find v(t) for t 1.25s C. Plot (using Matlab), v(t) and it for 0 St<12s *5.39 The switch in the circuit of Fig. P5.39 had been in position 1 for a long time until it was moved to position 2 at t = 0. Determine u(t)...
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