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25) Using Kirchhoff's rules, find the following. (8,-708 ε2-62.0 V, and ε3-78.4 V. 4.00 kΩ Ka...
please help Using Kirchhoff's rules (and given ε,-70.5 v, 82-61.7 v, ε3-79.7 V) calculate the following: 4.00 kΩ R2 3.00 kΩ 2.00 kΩ (a) Find the current in each resistor shown in the figure above. MA Your response differs from the correct answer by more than 10%. Double check your calculations MA (b) Find the potential difference between points e and f Which point is at the higher potential? Submit Answer Save Progress Practice Another Version MacBook Air 888 FA...
Using Kirchhoff's rules, find the following. (Ez = 70.4 V, &z = 61.5 V, and ag = 79.4 V.) 4.00 12 E R ES R, 3.00 k. 2.00 K12 a R (a) the current (in mA) in each resistor shown in the figure above mA IR IR 2 ma IR 3 mA (b) the potential difference between points c and f(Give the magnitude of your answer in volts and select the point of highest potential.) magnitude of potential difference V...
Problem 6 Using Kirchhoff's rules, find the following. (& = 71.0 V, & = 60.2 V, and E3 = 79.2 V.) 4.00 k12 b d с 82 2 Rg 8 R2 3.00 k12 2.00 k2 w R (a) the current in each resistor shown in the figure above (b) the potential difference between points c and f (c) which point, corf, is at the higher potential?
Using Kirchhoff's rules, find the following. ( 1 = 70.6 V, _2 = 61.4 V, and _3 = 79.4 V.) the current in each resistor shown in the figure above I_r1 mA Ir_2 = mA IR _3 = ma the potential difference between points c and f magnitude of potential difference point at higher potential
Problem 6 Using Kirchhoff's rules, find the following. (& = 71.0 V, E = 60.2 V, and E3 = 79.2 V.) 4.00 k12 b d w E E, R3 C 89 Rg } 3.00 k12 2.00 k12 a R (a) the current in each resistor shown in the figure above (b) the potential difference between points c and f (c) which point, corf, is at the higher potential?
Please i need detailed explanation. Thanks! Problem4 Using Kirchhoff's rules, (a) find the current in each resistor shown in Figure 3 and (b) find the potential difference between points c 4.00 ㏀ 0.0 V 60.0 V T80.0V 2.00 k Ri FIGURE 3
(a) Kirchhoff's rules using each circuit in the figure Find currents passing through the resistance. (b) between points c and f by calculating the potential difference (Vc-Vf) which point is higher Determine the potential. (c) Provided by batteries What is the total power? I 4.00 k22 b d E E, R3 Ez 70.0 V 60.0 V 80.0 V 12 I 11 R2 3.00 k22 2.00 k92 ww R1
For the circuit shown in the figure below, calculate the following quantities. (Assume -4.00 V and R-8.00 ?. ) 12.0 V 4.00 2 2.00 ? (a) the current in the 2.00-? resistor (Enter the magnitude.) mA (b) the potential difference between points a and b
Using Kirchhoff's rules, calculate the current in R1 with the directions indicated in the figure below. Assume that R1 = 1.00 kohm, R2 = 3.00 kohm, R3 = 5.00 kohm, E1 = 75.0 V, E2 = 60.0 V and E3= 90.0 V. Calculate the current in R2. Calculate the current in R3 Find the magnitude of the potential difference between points c and f.
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...