Positive point charge q_1 = +6.0 times 10^-9 C is at the origin and negative point...
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?
An electric point charge of Q_1 = 9.63 nC is placed at the origin of the real axis. Another point charge of Q_2 = 1.83 nC is placed at a position of p = 2.25 m on the_real axis. At which position can a third point charge of q = -7.28 nC be placed so that the net electrostatic force on it is zero? Let the sign of Q_2 be changed from positive to negative. At which position can the...
Given the following charge distribution: q_1 = 5.0 times 10^-3 C at (x_2, y_2) = (+4.0m, 0.0m) q_2 = -3.0 times 10^-3 C at (x_3, y_3) = (0.0m + 4.0m) a) Draw charge distribution on a coordinate system, and show the direction of the electric fields due to each charge E_1 vector, and E_2 vector at the origin. b) Find the vector form of E_1 vector -field at the origin. c) Find the vector form of E_2 vector -field at...
Find the electric potential energy for the following array of charges: charge q_1 = +4.0 mu C is located at (x, y) = (0.0, 0.0) m: charge q_2 = +2.0 mu C is located at (4.0, 3.0) m: and charge q_3 = -1.0 mu C is located at (0.0, 3.0) m. mJ
A point charge q_1 is held stationary at the origin. A second charge q_2 is placed at point a and the electric potential energy of the pair of charges is + 5.0 times 10^-9 J. When the second charge is moved to point b, the electric force on the charge does - 1.8 times 10^-8 J of work. What is the electric potential energy of the pair of charges when the second charge is at point b? J
d Point charges Q_1 = + 3 10^6 C and Q_2 = -9 10^-6 C are fixed on the x axis at x = -11 m and x = +11 m, respectively. Sketch the electric potential (voltage) on the x axis for this system. (NOT FOR CREDIT -- but essential for the next parts.) Your sketch should show that there is a point on the x axis between the two charges where V=0. Is this point closer to Q_1 or...
Point charge q_1 = +3.67 mu C is at point A (-37.2 cm, 0), and point charge q_2, carrying an equal and opposite charge, is at point B (+37.2 cm, 0). Find the magnitude of the electric field at the origin. Give the direction of the electric field at the origin. out of the page toward the negative charge toward the positive charge downward upward zero into the page An electron (q = 1.60 times 10^-19, m = 9.11 times...
Two point charges are located as shown in the picture. r_1 = 0.300 m, r_2 = 0.400 m, q_1 = + 5.00 mu C, q_2 = - 3.00 mu C a) What is the magnitude and direction of electric fields E^vector_1, and E^vector_2 of each charge at the origin O? b) Sketch the electric field vectors E^vector_1, and E^vector_2 at the origin on the picture. Make sure that both have proper directions. c) What is the magnitude and direction of...
Part 1.) A positive charge, q_1 = 5.75 nCq 1 =5.75nC , is located at the origin (x = 0 ~m, y = 0 ~m)(x=0 m,y=0 m). A negative charge, q_2 = 4.18 nCq 2 =4.18nC , is located on the x-axis at (x = 4 ~m, y = 0 ~m)(x=4 m,y=0 m). Calculate the magnitude of the electric field at the location marked by the letter “X” on the figure below at (x = 4 ~m, y...