Determine I when ε =36 V and R = 15 Ω.
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Determine I when ε =36 V and R = 15 Ω.
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- Please answer vii, viiiIn the circuit shown in (Figure 1), the potential difference across abab is 23.5 VV. Calculate the charge on the 5.00 μF capacitor. The last time I asked this question, the answer was wrong11:31 PM Sat Jul 15 = Consider the combination of capacitors in the figure below. (Let C₁ = 36.0 µF and C₂ + FL-I 36.0 V 4.00 μF C₂ webassign.net (a) Find the equivalent single capacitance of the two capacitors in series. UF Redraw the diagram (called diagram 1) with this equivalent capacitance. 8.00 με (b) In diagram 1 find the equivalent capacitance of the three capacitors in parallel. μF Redraw the diagram as a single battery and single capacitor in a loop. (c) Compute the charge on the single equivalent capacitor. UC (d) Returning to diagram 1, compute the charge on each individual capacitor. 4.00-μF capacitor 4.40-μF capacitor 36.0-μF and 8.00-μF equivalent capacitor No Does the sum agree with the value found in part (c)? Yes Need Help? Read It Submit Answer μC μC (e) What is the charge on the 36.0-μF capacitor and on the 8.00-μF capacitor? μC HC (f) Compute the voltage drop across the 36.0-μF capacitor. (g) Compute the voltage drop across the 8.00-μF capacitor. 4.40 μF.) 17%
- In the figure ε = 15.6 V, R₁ = 2800 2, R2 = 2900 2, and R3 = 4070 2. What are the potential differences (in V) (a) VA - VB, (b) VB - VC, (c) Vc VD, and (d) VA - VC? Rg www R3 Dhow would u do question 18? this is a nonIf & 1 = 4.0 V, & 2 = 12.0 V, R₁ = 42, R₂ = 122, C = 3 μF, Q = 18 µC, and I = 2.5 A, what is the potential difference V₁ - Vb? R₁ +11 &₁ bow ! R₂ - 30 V O 30 V O 5.0 V & = O -5.0 V 1₁ e 30