The figure shows a circuit section of four air-filled capacitors that is connected to a larger circuit. The graph below the section showsthe electric potential V(x) as a function of position x along the lower part of the section, through capacitor 4. Similarly, the graph abovethe section shows the electric potential V(x) as a function of position x along the upper part of the section, through capacitors 1, 2, and3. Capacitor 3 has a capacitance of 0.42 μF. What are the capacitances of (a) capacitor 1 and (b) capacitor 2?12V(a) Number i(b) Number iV (V)UnitsUnits15 V41₂<3

Given: Let us consider the given data, Capacitance, C3=0.42 μF To find: The capacitance of a)…

Answered: The figure shows a circuit section of…

Similar questions

For the system of capacitors shown in the figure below, find the following. (Let C1 = 4.00 microfarad and C2 = 8.00 microfarad.) c) the potential difference across each capacitor across C1 V across C2 V across the 6.00 µF capacitor V across the 2.00 µF capacitor V
For Problems 4-6 find the equivalent Capacitance, the Potential across Capacitor 3, and the Charge on Capacitor 4 C₁=6F 6.00 volts C₂=3F C₂ = 10 F C₁ = 14 F 4. Ceq= V3 = Q4=
A leaky capacitor loses 22% of its charge in 13 min. What is the effective time constant of the system? The time constant, t = What fraction of charge (in %) will be on the capacitor after 39 min? Q Qo After what time there will be 4% of the initial charge left on the capacitor? The charge, The time, t = Units Select an answer ✓ x 100% = Units Select an answer ✓ Units Select an answer ✓
An electron passes through an area of changing potential as shown below. At point A, the electron has a speed of 7.2 × 106 m/s. What is the approximate speed of the electron at point B? A +10 V 7 +20 V B +30 V
In (Figure 1), C1 = 6.00 pF, C2 = 3.00 μF, and C3 = 5.00 μF. The capacitor network is connected to an applied potential Vab After the charges on the capacitors have reached their final values, the charge on C2 is 30.0 μC. Figure b C₁ C3 d 1 of 1 Part A What is the charge on capacitor C1? Express your answer with the appropriate units. Q1 = Submit Part B Q3 = Submit Part C 123+ What is the charge on capacitor C3? Express your answer with the appropriate units. Vab= Value Submit 123+ Request Answer Value ( 3 ? 123+ Provide Feedback Units What is the applied voltage Vab? Express your answer with the appropriate units. Value Request Answer 3 CE? Units CE ? Units Request Answer G
Two parallel-plate capacitors have the same charge Q, but the area of the plates in capacitor 1 is 2.0cm2 and the area of the plates in capacitor 2 is 4.0cm2. If the spacing between the plates in capacitor 1 is 1.0mm , what should the spacing between the plates in capacitor 2 be to make the capacitance of the two capacitors equal? 0.5mm 1.0mm 2.0mm 4.0mm
Needs Complete typed solution with 100 % accuracy.
Part A In the Figure (Figure 1), C1 = 6.00 µF, C2 = 3.00 µF, C3 = 5.00 µF. The capacitor network is connected to an applied potential Vab- After the charges on the capacitors have reached their final values, the charge on C2 is 40.0 μC. What is the charge on capacitor C1? ? Q1 = μC Figure 1 of 1 Submit Request Answer C1 Part B a What is the charge on capacitor C3 ? ? b Q3 = µC C3
In (Figure 1), each capacitor has C= 5.00 μF and Vab = 35.0 V. Part A: Calculate the charge on capacitor C1. Q1=__C Part B: Calculate the potential difference across capacitor C1. V1=__V Part C: Calculate the charge on capacitor C2. Q2=__C Part D: Calculate the potential difference across capacitor C2. V2=__V Part E: Calculate the charge on capacitor C3. Q3=__C Part F: Calculate the potential difference across capacitor C3. V3=__V Part G: Calculate the charge on capacitor C4. Q4=__C Part H: Calculate the potential difference across capacitor C4. V4=__V Part I: Calculate the potential difference between points a and d. Vad=__V
Based on the figure below, how much charge is stored in the parallel plate capacitor with a 12 V battery? If it is known that one of the capacitors is filled with air (k = 1) and the other capacitor is filled with dielectric material with k = 3. Each capacitor has a plate area of 5 x 103 m? and the plates are separated by 2 mm. V