Find the electric potential energy for the following array of charges: charge q_1 = +4.0 mu...
Find charge on each capacitors: show every single step of your calculations. C_1 = 1.0 mu F, C_2 = 2.0 mu F, C_3 = 3.0 mu F, C_4 = 4.0 mu F, V= 6.0 V Find the charge on each capacitor: Q_1, Q_2, Q_3, Q_4, ?
A charge q_1 = 2.32 mu c is at a distance d = 1.43 m from a second charge q_2 = -6.07 mu c. (a) Find the electric potential at a point A between the two charges that is d/2 from q_1. Note that the location A in the diagram above is not to scale. V (b) Find a point between the two charges on the horizontal line where the electric potential is zero. (Enter your answer as measured from...
Find electric potential energy produced by Q_1, Q_2 and Q_3 in terms of k.q^2/r.
Three charges (q_1 = 4.0 nC, q_2 = 3.0 nC, q_3 = -5.0 nC) are placed at the corners of a right triangle as shown in the figure, where d = 8.34 cm. Calculate the electric potential energy of this configuration of three fixed charges.Give your answer in units of microjoules.
Pictured on the right are the point charges Q_1 = 15.4 mu C, Q_2 = -34.6 mu C, and Q_3 = 87.3 mu C arranged according to the figure on the right. Calculate the potential at pen A in the figure.
A point charge with a charge q_1 = 3.70 mu C is held stationary at the origin. A second point charge with a charge q_2 = -4.30 mu C moves from the point x = 0.130 m, y = 0 to the point x = 0.290 m, y = 0.280 m. How much work is done by the electric force on q_2?
A point charge with a charge q_1 = 2.70 mu C is held stationary at the origin. A second point charge with a charge q_2 = -4.30 mu C moves from the point x = 0.140 m, y = 0 to the point x = 0.290 m, y = 0.250 m. Part A How much work is done by the electric force on q_2?
Pictured on the right are thee point charges Q_1 = 21.4 mu C Q_2 = -38.6 mu C, and Q_3 = 87.3 mu C arranged according to the figure on the right. Calculate the potential at point A in the figure.
Positive point charge q_1 = +6.0 times 10^-9 C is at the origin and negative point charge q_2 = -4.0 times 10^-9 C is on the negative x-axis at x = -0.200 m. Point A is on the +x-axis at x = 0.100 m and point B is on the +x-axis at x = 0.300 m. How mu Ch work does the resultant electric field of q_1 and q_2 do on a third point charge q_3 = -5.0 times 10^-3...
Four identical charges of +20 mu C are placed along the x axis at x = 1.0 m, 2.0 m, 3.0 m, and 4.0 m. How much energy is necessary to bring an additional charge of +40 mu C to the origin? What is the magnitude of the electric force on the +40 mu C charges when it is located at the origin?