Q: What is the potential difference ( in volts) across C2 when C, = 5.0 µF, C2 = 15 µF, C3 = 30 µF, and…
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Q: Can you look over my work and make sure I did the capacitors, voltage drop, and total charge…
A: (a)The capacitance of the parallel combination of the capacitors C2 and C3 is, The equivalent…
Q: What is the potential difference ( in volts) across C2 when C, = 5.0 µF, C2 = 15 µF, C3 = 30 µF, and…
A: When capacitors are connected in series, charge remain constant. When they are connected in…
Q: What is the potential difference ( in volts) across C2 when C, = 5.0 µF, C2 = %3D 15 µF, C3 = 30 µF,…
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Q: With the switch open, the capacitor shown has an initial charge of 1.0 C. The switch is then closed.…
A: The time varying charge of the RC circuit can be expressed as
Q: 3.0 uF 19. What is the charge on the capacitor if the switch has been closed for a very long time?…
A: Hello. Since you have posted multiple questions and not specified which question needs to be solved,…
Q: R, = 25 0, R2 = 5 0, R3 = 10 0, and R4 = 15 0. Note that point C is grounded (Vc = 0). R, R, ww.gm B…
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Q: In Fig. 1, C1 =2.46 µF, C2 =4.67 µF, and C3 =7.67 µF. The equivalent capacitance is most nearly (A)…
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Q: ... V C3 C2 What is effective capacitance of the device? C1 = 15 uF, C2 = 9 uF, C3 = 4 uF
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Q: If a = 30 cm, b = 20 cm, q = %3D %3D +8.4 nC, and Q = -9.2 nC in the figure, what is the potential…
A: The given data are: q=8.4 nC=8.4×10-9 CQ=-9.2 nC=-9.2×10-9 Ca=30 cm=0.3 mb=20 cm=0.2 m
Q: What is the potential difference ( in volts) across C2 when C1 = 5.0 µF, C2 = 15 µF, C3 = 30 µF, and…
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Q: At t = 0 the switch S is closed with the capacitor uncharged. If C = 30 mF, ɛ = 30 V, and R = 6.8…
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Q: Two capacitors in series, C1= 9.0 uF and C2= 5.0 uF, are connected to a 12.0 V battery. What is the…
A: Option (c) i e 3.21uF is correct .
Q: What is the potential difference ( in volts) across C2 when C, = 5.0 µF, C2 = 15 µF, C3 = 30 µF, and…
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Q: What is the potential difference ( in volts) across C2 when C1 = 5.0 µF, C2 = 15 µF, C3 = 30 µF, and…
A: C2 and C3 are in series soC'=C2 C3C2 + C3=(15 μF)30 μF 15 μF+30 μFC'=10 μFnow, C' and C1 are in…
Q: What is the equivalent capacitance, in nF, of the following capacitor network? C1= 6.8 nF C2= 2.7 nF…
A: Given data :- C1 = 6.8 nFC2 = 2.7 nFC3 = 5.7 nF
Q: In this network, Cl is 1.0 mF, C2 is 3.0 mF, C3 is 6.0 mF, and C4 is 2.0 mF Find the Capacitance of…
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Q: What is the potential difference across C2 when C1 = 5.0 µF, C2 = 15 µF, C3= 30 µF, and vo = 24 V?…
A: given values c1=5micoro fared c2=15micoro fared c3=30micoro fared v=24volt
Q: What is the potential difference ( in volts) across C2 when C1 = 5.0 µF, C2 = 15 µF, C3 = 30 µF, and…
A: C1 = 5 × 10-⁶ F C2 = 15×10-⁶ F C3 = 30 × 10-⁶ F Vo = 19.4 volts
Q: 4) What is the potential difference across C2 when C1 = 5.0 µF, C2 = 15 F, C3 = 30 µF and V0 = 24 V?…
A: Since both branch are connected in parallel Potential difference across C2 & C3 branch is same…
Q: What is the potential difference ( in volts) across C2 when C, = 5.0 µF, C2 = 15 µF, C3 = 30 µF, and…
A: C1 IS PARALLEL WITH C2 and C3 SO potential drop across C1 , C2 and C3 will be equal = 67.5…
Q: What is the potential difference ( in volts) across C2 when C1 = 5.0 µF, C2 = 15 µF, C3 = 30 µF, and…
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Q: At t = 0 the switch S is closed with the capacitor uncharged. If C = 30 mF, ɛ = 30 V, and R = 8.6…
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Q: What is the potential difference ( in volts) across C2 when C, = 5.0 µF, C2 = 15 uF, C3 = 30 µF, and…
A: Given: The capacitance of capacitors are, C1=5.0 μFC2=15 μFC3=30 μF E.M.F. of battery Vo=19.9 volt
Q: 12. Compute for the total capacitance C12 20 µF C10 20 µF V1 200 V C11 20 μ C15 20 µF C14 1 µF C16…
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Q: Two capacitors in series, C1= 9.0 uF and C2= 5.0 uF, are connected to a 12.0 V battery. What is the…
A: C1 = 9μF C2 = 5μF V = 12 volts arrangement : series
Q: A. What is the potential difference ( in volts) across C2 when C, = 5.0 pF, C2 = 15 pF, C3 30 µF,…
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Q: 12 μF The following circuit contains three capacitors C₁ = 20 µF, C₂ = 8 μF, and C= connected to a…
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Q: What is the potential difference ( in volts) across C2 when C1 = 5.0 µF, C2 = 15 µF, C3 = 30 µF, and…
A: C1 = 5μFC2 = 15μFC3 = 30μF Vo = 60.1 volts C2 and C3 are in series , their equivalent capacitance is…
Q: What is the potential difference ( in volts) across C2 when C, = 5.0 µF, C2 = 15 µF, C3 = 30 µF, and…
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Q: What is the potential difference (in volts) across C2 when C, = 5.0 uF, C2 = ?15 pF, C3 30 µF, and…
A: Option A will be correct.
Q: What is the potential difference ( in volts) across C2 when C1 = 5.0 µF, C2 = 15 µF, C3 = 30 µF, and…
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Q: C2 = 3 uF C3 -4 uF C1=1 F CA = 2 uF V= 24 V
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Q: In the following circuit. What is the potential difference in R4? If R1 = 10 ?, R2 = 15 ?, R3 = 20…
A: R1 = 10 Ω, R2 = 15 Ω, R3 = 20 Ω, R4 = 8 Ω, R5 = 12 Ω, V1 = 20 V, V2 = 10 V, V3 = 13 V and V4 = 22 V…
Q: Consider the circuit shown. Let ε=16.0 and let R1=R2=R3=R4=6.00Ω. What is the voltage across R3? A.…
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Q: What is the potential difference ( in volts) across C2 when C, = 5.0 µF, C2 = 15 µF, C3 = 30 µF, and…
A: C1= 5 uF C2= 10 uF C3=15 uF Vo=90.8 volts
Q: If a = 30 cm, b = 20 cm, q = +9.3 nC, and Q = -6.8 nC in the figure, what is %3D the potential…
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Q: What is the potential difference ( in volts) across C2 when C1 = 5.0 µF, C2 = 15 µF, C3 = 30 µF, and…
A: Qeq= equivalent charge Ceq= equivalent capacitance Veq= equivalent potential difference Step 1)…
Q: What is the potential difference ( in volts) across C2 when C, = 5.0 µF, C2 = 15 µF, C3 = 30 µF, and…
A: In the given question we have to given a circuit and We have to determine the potential difference…
Q: What is the potential difference ( in volts) across C, when C,= 5.0 µF, C2 = 15 µF, C3 = 30 µF, and…
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Q: What is the potential difference ( in volts) across C2 when C, = 5.0 µF, C2 = 15 µF, C3 = 30 µF, and…
A: C1= 5.0 μF, C2= 15 μF, C3= 30 μF, and V0= 22.8 V
Q: Find the equivalent capacitance of this illustration. Сарacitor C1 %3D 5 MF Capacitor C2 = 7 µF…
A: The equivalent capacitance of C2 and C3 are: C' = C2+C3 = 7+8 = 15 μF The resultant circuit is:
Q: What is the potential difference ( in volts) across C2 when C1 = 5.0 µF, C2 = 15 µF, C3 = 30 µF, and…
A: Now you have specified a circuit. C2 and c3 are in series Their capacitance is c2*c3/c2+c3 =…
Q: C1 V + C3 C4 C2 %3D C1 3.0 μF; C, 6.0 µF; C3 = 4.0 µF; C4 = 2.0 µF; V = 16 volts a. 16 µC b. 20 µC…
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Q: 38 Va C2 C3 Three capacitors C1 = 20 nF, C2 = 15 nF and C3 = 10 nF are connected in parallel. If the…
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- In the saturation region (I-V characteristics) of JFET the value of D18 ssmemanmnssnes at specific (VGS = * .negative voltage ) a. b.c.d a: constant O b: zero O c: maximum O d: Bothaandc OA large conducting cone (0=35° )is placed on a conducting plane with a tiny gap separating it from the plane as shown below. If the cone is connected to a Vo=40 V source, find V at (r=5,0=55°,9=45°) Vo Gap a. 22.62 V b. 79.18 V c. 33.94 V d. 11.31 V e. 16.97 V f. 113.12 VTo measure signal propagation in a nerve in the arm, the nerve is triggered near the armpit. The peak of the action potential is measured at the elbow and then, 4.0 ms later, 24 cm away from the elbow at the wrist.a. What is the speed of propagation along this nerve?b. A determination of the speed made by measuring the time between the application of a stimulus at the armpit and the peak of an action potential at the elbow or the wrist would be inaccurate. Explain the problem with this approach, and why the noted technique is preferable.
- A large conducting cone ( 0=35° )is placed on a conducting plane with a tiny gap separating it from the plane as shown below. If the cone is connected to a V.=40 V source, find V at (r-5,0=55°,p=D45°) -Vo Gap Oa. 22.62 V b. 79.18 V c. 33.94 V d. 11.31 V e. 16.97 V f. 113.12 VShow that for V less than zero, InetI0.75.0 N, %3D %3D 6.33 In Figure P.6.4, VB = 12.0 V, R1 = 100.0 N, R2 = 55.0 N, R3 .. R: Figure P.6.4. Figure for Problem 6.33. and Ra = 15.0 N. What is the current through and voltage across each resistor? %3D
- 200 pF in series w/ unknown & as a series combination in parallel w/ 100 pF. The potential between a and b =26 V and the 200 pF capacitor stores 40nJ. 1. Find unknown capacitance and Cequivalent of the circuit.2. what is the dielectric constant K to make an equivalent capacitor w/ two 1x1cm square aluminum electrodes 0.4 mm apart and filled w/ the dielectric?PROBLEM NUMBER 2 Using the characteristics of Fig. determine I, for the following levels of VGs (with VDS > Vp): a. VGS = 0V. b. VGS = -1 V. c. VGS = -1.5 V. d. VGS = -1.8 V. e. VGS = -4 V. f. Vas= -6 V. IDSS 8 7 5 4 3 2 1 ID (mA) Ohmic Region | Locus of pinch-off values Saturation Region 15 10 Vp (for VGS = 0 V) 15 VGS = 0 V 20 VGS =-1 V VGS=-2 V VGS=-3 V VGS=-4V=VP VDS (V) 25Electrons in silicon have a mobility of 1000 cm /V-sec. The electric field is applied to make the electrons reach a velocity of 3 x 10' cm/sec. Assume that the mobility is constant and independent of the electric field. What voltage is required to obtain this field in a 5 um thick region? How much time do the electrons need to cross the 5 um thick region?
- What is the number density of free electron carries in the metallic element nickel if the electrons available for electrical conduction is 1 e- per nickel atom? The atomic mass of nickel is 58.6934 g/mole and the density of nickel is 8.902 g/cm3. a. 3.32 x 1028 e- ' s /m3 b. 1.56 x 1029 e- ' s /m3 c. 5.64 x 1028 e- ' s /m3 d. 9.13 x 1028 e- ' s /m3 e. 7.63 x 1028 e- ' s /m341. Let J = 10y²z ax – 2x²y ay + 2x²z az and find the total current crossing the surface x = 3, m² 2 ≤ y ≤ 3,3.8 ≤ z ≤ 5.2 in the ax direction. a. 399 A b. 450 A C. 350 A d. 300 A. Pare, Ohmic ako. An exotic material has the following I-V curve. In which voltage region is the material Ohmic? I D B A-