Fast as Possible Three point charges of q, = -85 nC, 92 = +213 nC, and...
A circuit is constructed with five capacitors and a battery as shown. The values for the capacitors are: C1 = C5 = 2.3 uF, C2 = 3.5 uF, C3 = 7.9 pF, and C4 = 2.6 uF. The battery voltage is V = 12 V. EC4 4) What is Q2, the charge on Cz? C Submit 5) What is Q1, the charge on capacitor Cy? uc Submit 6) What is V4, the voltage across capacitor C4? Submit
In the diagram below, C1=30 uF, C7=15 MF, Cz=10 uF, C=20 MF, and C=10 pF. Find the equivalent resistance of the block (C1, C2, C3, C4): Cegt MF. Find the total equivalent capacitance of this circuit: Ceg UF Find the charge on capacitor Cs: 95-ENAC. Find the voltage drop across capacitor Cs Vse С. C3 HE HA C2 C4 HE + 90.0 V C5
v3. At what distance from a point charge of 4.0 nC does the electric field have a magnitude of 4.0 N/C? (3.0 m) 4. Two small identical conducting spheres are placed with their centers 0.30 m apart. One is given a charge of 1 0 x10* c other a charge of -3.0 x10 C. (a) Find the electrostatic force exerted on one sphere by the other. (3.0 x 10"N, attraction) the (b) e spheres are connected by a conducting wire....
Problem 6. In the following capacitor circuit, the capacitors have values C1 = 1.0 uF, C2 = 2.0 uF, C3 = 3.0 uF and C4 = 4.0 uF. There is also a battery supplying a voltage of 5.0 V across the circuit. = = 26. Find the total charge entering this circuit in units of uC. (A) 1.2 (B) 2.7 (C) 3.0 (D) 4.6 (E) 5.5 27. Find the voltage across the Cz capacitor in units of volts. (A) 1.3...
PLEASE ANSWER ALL QUESTIONS. ROUND ANSWER TO THE FOURTH DECIMAL PLACE WHEN NEEDED Question 9 (1 point) CZ CI 11c3 G C5 In the following circuit, C1=5.7 F, C2=2*5.7 F, C3=2*5.7 F, C4=2*11.4 F, and C5=3*11.4. Calculate the equivalent capacitance in the circuit. Your Answer: Answer units Question 10 (1 point) AR-C series circuit is connected to a 12 volt battery. Initially the capacitor has zero charge. Assume R= 17 12, C= 1,043 uF. When the circuit is closed, calculate...
Q2: Time (30 minutes) A. Your friend Shawn draw the two equipotential surfaces a & b (shown below) as part of his class project in PHYA21. IDV -10V Comment on these two diagrams if they are physically acceptable? When appropriate, try to help him by drawing the electric field on graphs. B. To demonstrate the effect of a dielectric on capacitors you quickly filled the space between the capacitor plates by an insulator while it is still connected to the...
Question 10 3 pts A capacitor has a small capacitance of C. The capacitor is charged by placing a potential difference of V = 158 between its plates and the energy it stores is 69 J. What is the capacitance in MF? Note: 1.0 MF 10- F. Please round your answer to the nearest whole number (integer). Equation: U = CV Question 11 3 pts The figure below shows a circuit that contains four capacitors. Find (a) the equivalent capacitance,...
Three point charges+1, nC, +2 nC and -3 nC are placed in two adjacent vertices and in the center of a square with 3 m long sides. Find electric field (magnitude and direction) and electric potential (magnitude and sign) in the empty vertices of the square. Find total potential energy of the interaction between the charges. Find force of interaction between the charges in the vertices. Find DC currents (magnitudes and directions) in the resistors of the circuit shown. Find...
(a) Find the charge (in C) stored on each capacitor in the figure below (C = 10.0 pF, C2 = 1.50 pF) when a 1.52 V battery is connected to the combination. CH C2 0.30 uF 066e-6 C1 C2 0.300 uF capacitor хс X C 374e-6 44e-6 с 다. (b) What energy (in )) is stored in each capacitor? C1 C2 ] 0.300 uF capacitor ] Three point charges 91, 92, and 43 are situated at three corners of a...
Two point charges, Q1 = +4.50 nC and Q2 = -3.10 nC are separated by 35.0 cm. (a) What is the potential energy of the pair? J What is the significance of the algebraic sign of your answer? (b) What is the electric potential at a point midway between the charges? (Note: Assume a reference level of potential V = 0 at r = ∞.) V