![[7] (10 points) The circuit shown in the figure below consists of a source driving a load. The current source is i(t) = 1.25](http://img.homeworklib.com/questions/0c208980-01d2-11eb-8c06-df4eec578bab.png?x-oss-process=image/resize,w_560)
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I have calculated the load resistance R and inductance L ,the
calculations has been shown below - 
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[7] (10 points) The circuit shown in the figure below consists of a source driving a...
3. Consider the AC circuit shown in the figure below, consisting of an alternating voltage source—of...
3. Consider the AC circuit shown in the figure below, consisting
of an alternating voltage source—of voltage V (t) = V0 cos (ωt)—a
capacitor (of capacitance C), an inductor (of inductance L), and
two resistors (of resistances R1 and R2). Also, note the
highlighted points a and b in the circuit. (a) While explaining
your reasoning, determine the necessary condition that must be
satisfied between the circuit elements such that the potential
difference between points a and b is zero...
The circuit below consists of a thevenin source Problem #2 - (16%) The circuit below consists...
The circuit below consists of a thevenin source
Problem #2 - (16%) The circuit below consists of a Thevenin source shown on the left of the vertical dotted line and a load shown on the right of the dotted line. The frequency of the Thevenin source is 600 Hz. The Thevenin voltage is 2 Vpk. R 1:4 70 mH Vin 2 V pk 600 Hz 7502 0.5 UF Source Load a) Compute the load impedance (looking into the ideal transformer...
The circuit shown below contains an AC generator which provides a source of sinusoidally varying emf...
The circuit shown below contains an AC generator which provides a source of sinusoidally varying emf epsilon (t) = epsilon _0 sin omega t, a resistor with resistance R, and a "black box," which contains either an inductor or a capacitor, but not both. The amplitude of the driving emf, epsilon _0, is 100 Squareroot 2 V, and the angular frequency omega is 10 rad/s. We measure the current in the circuit and find that it is given as a...
2.6. The load shown in Figure 2.22 consists of a resistance R in parallel with a...
2.6. The load shown in Figure 2.22 consists of a resistance R in parallel with a capacitor of reactance X. The load is fed from a single-phase supply through a line of impedance 8.4 + j 11.2 Ω. The rms voltage at the load terminal is 120020° V rms, and the load is taking 30 k VA at 0.8 power factor leading. (a) Find the values of R and X (b) Determine the supply voltage V. 8.4+511.2 Ω 120020° vsh...
QUESTION 7 In the parallel LC crcuit of the figure shown below, a 60-Hz voltage source...
QUESTION 7 In the parallel LC crcuit of the figure shown below, a 60-Hz voltage source S-20 , 0 V delivers a source current IS = 5 / 6 A to the crcuit if the resulting magnitude of capacitor current Ic is two times the magnitude of the inductor current IL, determine the value of the inductance reactance XL (in ohms) in this circuit. (Enter your answer as a number without the units.) Ic Vs
5.) For the circuit shown in Figure 5, (a) determine the Norton equivalent current. source IN...
5.) For the circuit shown in Figure 5, (a) determine the Norton equivalent current. source IN and Norton equivalent parallel resistance RN with respect to load terminals a and b. Then use your Norton equivalent circuit in part (b) to find the load resistance R mas that would result in the maximum power transfer from the source, and calculate the maximum power. (120 pt, 60 pt) (a) RN IN P MAX (b) R LMAX 10n 30A S20n Ta 10A on...
Part A LR Circuits: As shown in the figure, a circuit consists of a resistor R=17...
Part A LR Circuits: As shown in the figure, a circuit consists of a resistor R=17 in series with an ideal inductor L= 49 H having no resistance. At time t=0 s, there is a 12-A current in the circuit. At that instant, what is the rate of change of the current? Loooo 0 -19 A/S 0 12 Ao O 35 A/S O -4.2 Als -27 As
(9%) Problem 2: Consider the circuit depicted in the attached figure. The voltage source is an...
(9%) Problem 2: Consider the circuit depicted in the attached figure. The voltage source is an AC source of frequency - 35 Hz. Randomized Variables R-1122 R2 - 1440 C) -5.5 F C2-5.5 UF L = 0.98 H Otheexpertta.com leted for the circuit as a complex number. You may assume the 25% Part (a) Given the above circuit, write an expression for the total impedance current is a completely real phasor. Z-R, Ry(112xf )(1/2x1C) +121 X Incorrect! Give Upwed bleted...
An AC source powers a circuit containing a resistor, a capacitor, and an inductor as shown....
An AC source powers a circuit containing a resistor, a capacitor, and an inductor as shown. L R C b a If the inductance is 1 H , the capacitance is 1 F , and the resistance 1 Ω , find the impedance Zab across a b . ω = 1.25 Hz and ω0 = 1 √ LC = 1 Hz . Answer in units of Ω.
Consider the electromechanical dynamic system shown in Figure 1(a). It consists of a cart of mass...
This assignment is for my Engr dynamics systems class.
Consider the electromechanical dynamic system shown in Figure 1(a). It consists of a cart of mass m moving without slipping on a linear ground track. The cart is equipped with an armature-controlled DC motor, which is coupled to a rack and pinion mechanism to convert the rotational motion to translation and to create the driving force for the system. Figure 1(b) shows the simplified equivalent electric circuit and the mechanical model...
3. Consider the AC circuit shown in the figure below, consisting
of an alternating voltage source—of voltage V (t) = V0 cos (ωt)—a
capacitor (of capacitance C), an inductor (of inductance L), and
two resistors (of resistances R1 and R2). Also, note the
highlighted points a and b in the circuit. (a) While explaining
your reasoning, determine the necessary condition that must be
satisfied between the circuit elements such that the potential
difference between points a and b is zero...
The circuit below consists of a thevenin source
Problem #2 - (16%) The circuit below consists of a Thevenin source shown on the left of the vertical dotted line and a load shown on the right of the dotted line. The frequency of the Thevenin source is 600 Hz. The Thevenin voltage is 2 Vpk. R 1:4 70 mH Vin 2 V pk 600 Hz 7502 0.5 UF Source Load a) Compute the load impedance (looking into the ideal transformer...
The circuit shown below contains an AC generator which provides a source of sinusoidally varying emf epsilon (t) = epsilon _0 sin omega t, a resistor with resistance R, and a "black box," which contains either an inductor or a capacitor, but not both. The amplitude of the driving emf, epsilon _0, is 100 Squareroot 2 V, and the angular frequency omega is 10 rad/s. We measure the current in the circuit and find that it is given as a...
2.6. The load shown in Figure 2.22 consists of a resistance R in parallel with a capacitor of reactance X. The load is fed from a single-phase supply through a line of impedance 8.4 + j 11.2 Ω. The rms voltage at the load terminal is 120020° V rms, and the load is taking 30 k VA at 0.8 power factor leading. (a) Find the values of R and X (b) Determine the supply voltage V. 8.4+511.2 Ω 120020° vsh...
QUESTION 7 In the parallel LC crcuit of the figure shown below, a 60-Hz voltage source S-20 , 0 V delivers a source current IS = 5 / 6 A to the crcuit if the resulting magnitude of capacitor current Ic is two times the magnitude of the inductor current IL, determine the value of the inductance reactance XL (in ohms) in this circuit. (Enter your answer as a number without the units.) Ic Vs
5.) For the circuit shown in Figure 5, (a) determine the Norton equivalent current. source IN and Norton equivalent parallel resistance RN with respect to load terminals a and b. Then use your Norton equivalent circuit in part (b) to find the load resistance R mas that would result in the maximum power transfer from the source, and calculate the maximum power. (120 pt, 60 pt) (a) RN IN P MAX (b) R LMAX 10n 30A S20n Ta 10A on...
Part A LR Circuits: As shown in the figure, a circuit consists of a resistor R=17 in series with an ideal inductor L= 49 H having no resistance. At time t=0 s, there is a 12-A current in the circuit. At that instant, what is the rate of change of the current? Loooo 0 -19 A/S 0 12 Ao O 35 A/S O -4.2 Als -27 As
(9%) Problem 2: Consider the circuit depicted in the attached figure. The voltage source is an AC source of frequency - 35 Hz. Randomized Variables R-1122 R2 - 1440 C) -5.5 F C2-5.5 UF L = 0.98 H Otheexpertta.com leted for the circuit as a complex number. You may assume the 25% Part (a) Given the above circuit, write an expression for the total impedance current is a completely real phasor. Z-R, Ry(112xf )(1/2x1C) +121 X Incorrect! Give Upwed bleted...
This assignment is for my Engr dynamics systems class.
Consider the electromechanical dynamic system shown in Figure 1(a). It consists of a cart of mass m moving without slipping on a linear ground track. The cart is equipped with an armature-controlled DC motor, which is coupled to a rack and pinion mechanism to convert the rotational motion to translation and to create the driving force for the system. Figure 1(b) shows the simplified equivalent electric circuit and the mechanical model...
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