1) A voltage of 14 V is placed on a capacitor with C = 108 pF (picofarads).
(a) What is the charge on the capacitor?
C
(b) How much energy is stored in the capacitor?
J
2) Four point charges, each with Q = 5.6 µC, are arranged
at the corners of a square of edge length 1.4 m. What is the
electric potential at the center of the square?
V
(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...
7. Three point-like charges are placed at the corners of a rectangle as shown in the figure, a = 30.0 cm and b = 66.0 cm. Find the minimum amount of work required by an external force to move the charge q to infinity. Let q = −2.30 µC, q = −3.20 µC, q = +5.10 µC. in J 8. Four point-like charges are placed as shown in the figure, three of them are at the corners and one at...
Four point charges, each with Q = 4.5 uC are arranged at the corners of a square of edge length 1.5 m. What is the electric potential at the center of the square?
1. Three point-like charges are placed at the corners of a rectangle as shown in the figure, a = 20.0 cm and b = 52.0 cm. Find the magnitude of the electric force exerted on the charge q33. Let q11 = +1.30 µC, q22 = +4.10 µC, q33 = −3.70 µC. 2. Two point-like charges are placed at the corners of a square as shown in the figure, a = 48.0 cm. Find the magnitude of the electric field at...
Four point-like charges are placed as shown in the figure, three of them are at the corners and one at the center of a square, 46.0 cm on each side. What is the electric potential energy of the entire system of charges? Let q1 = +29.0 µC, q2 = −26.0 µC, q3= +25.0 µC, and q4 = −34.0 µC.
You have a capacitor with capacitance C that is charged to Voltage V. The capacitor contains a dielectric with value 2 x the vacuum dielectric constant. After it is charged, the battery is disconnected. Then the dielectric is removed, leaving an air gap behind.. Answer the following questions 1. Determine the following (show work) Charge, Voltage, and energy stored in the capacitor before and after the dielectric is removed. 2. In terms of energy conservation with regards to energy stored in...
Four charges are placed at the corners of a square, where q is positive (q > 0). Initially there is no charge in the center of the square. a) Find the work W required to bring the charge Qf = +q from infinity and place it at the center of the square. b) What is the magnitude of the electric force on the charge q when it is placed at the center of the square? c) What is the magnitude...
Four capacitors are arranged in the circuit shown in the figure. The capacitors have the values G = 22.5 UF, C = 45.5 pF, C; = 50.5 pF, and Cd = 40.5 pF, and the power supply is at voltage V = 23.5 V. What is the equivalent capacitance of the circuit? equivalent capacitance: What is the charge on capacitor C2? charge on C: What is the potential difference across capacitor C;? potential difference across C3: What is the potential...
Tutorial 9: Electricity I (week 10) 1) A typical thunderstorm can be regarded as comprising two charges of +40 C and -40 C, separated in air by a distance of 5 km Calculate the magnitude of the force between the charges 2) Four charges are arranged at the corners of a square with sides length, L, as shown Q: 4 mC, q = 2 mC and L = 10 cm a) Find the magnitude of the .Q net force on...
Question 1 1 pts Consider a Gaussian surface in form of a cube shown in the picture. A charge Q is placed exactly in the center of this cube. What is the flux through each of faces of cube? 0 Q/(3 0) Not enough information to answer Question 3 1 pts When electron moves in the direction which is against direction of electric field lines we can conclude that: e. both its electric potential and electric potential energy stay constant....