Based on the following circuit, find the following:
1.- The value of the currents present
2.- The magnitude of the potential difference between points a and b (Vab)
3.- The load on the capacitor
When we apply DC supply to capacitor it acts as open circuited and currents are calculated as per asumed direction and for potential difference I had applied nodal analysis and considered b potential as ground.
Based on the following circuit, find the following: 1.- The value of the currents present 2.-...
Based on the following circuit find the following: 812 a 922 12 V 3 Ω 1.- The value of the currents present 69 52 10Ω 8uF 5 V 2.- The magnitude of the potential difference between points a and b (Vab) SV 1.5 V 1.5 V 722 3 Ω 7 Ω b 3.- The charge on the capacitor (Non-anonymous question
C2 C3 2. In a circuit show on the left, C1 = 4.00 μF; C 4.00 c, = 2.00 μF; C4 = 2.00 μF; Cs = 3.00 μF; and Vab = +24.0 V. Calculate (a) the charge on each capacitor; (b) the potential difference across each capacitor (c) the potential difference between points d and b. a Ca Cs E.-8.854 × 10-12 C2/N·m2
3) (5 points) In the circuit below: a) Determine all the currents b) Find Vab 18.0 V 8.00 Ω 12.0 V 36.0 V
For the circuit shown in the figure, calculate the following. (Assume ε = 8.40 V and R = 5.94 Ω.) (a) the current in the 2.00-12 resistor (Enter the magnitude.) (b) the potential difference between points a and b, ΔV = Vb - Va
For the circuit shown in the figure (ε-3.50 V, R-5.00 Ω), calculate the following quantities. 12,0 V 4,00 Ω 2.00 Ω (a) Calculate the current in the 2.00 Ω resistor. (Enter the magnitude.) mA (b) Calculate the potential difference between points a and b. The ammeter shown in the figure below reads 2.94 A. Find the following. 15.0 V 7.00 Ω 5.00 Ω 2.00 Ω ε (a) 1A Consider the following figure, where ε,-12 V and ε2-9.2 v. 10.011 6.00...
Find all the currents in the following circuit. 2Ω 2 V 3Ω 7Ω 4Ω 10 V 10Ω 6Ω 5Ω 6V 2Ω 5Ω 11Ω 3 V
In the figure (Figure 1) , each capacitor has 5.00 μF and Vab = 35.0 V . a) Calculate the charge on each capacitor(Q1,Q2,Q3,Q4) b) Calculate the potential difference across each capacitor c) calculate the potential difference between points a and d
a) Find the equivalent resistance between points a and b in Figure 1 (R = 17.00 22). If a potential difference of 340 V is applied between points a and b, calculate the current in each resistor. What is the potential difference a cross each resistance? 2. The ammeter shown in the figure 2 below reads 2.28 A. Find 11, 12, and using Kirchhoff's rules. 3. An uncharged capacitor and a resistor are connected in series to a battery, where...
An electrical engineer student creates a circuit as shown in the figure. Find the following. An electrical engineering student creates a circuit as shown in the figure. Find the following. (Assume C1-34.0 μF and C2-2.93 μF.) 6.00 μF 9.00 V (a) the equivalent capacitance (in μF) 17 Did you forget to take the reciprocal to find Ced? μF (b) the charge on each capacitor (in μC) C1 (left) C1 (right) 6.00 μF capacitor (c) the potential difference across each capacitor...
For the given circuit, find the following: The total load resistance of the circuit between circuit points a and b. The current through each resistor. The voltage across each resistor. The power dissipated by each resistor. The power supplied by the battery. The terminal voltage, Vab. Please be as detailed as possible and explain each step. 10.0 Ω - 8.0 Ω 6.0 Ω 4.0 Ω LW 5.0 Ω a r=0.50 Ω - L (a) & = 9.0V