A -4.8 micro coulomb charge and a -10.3 micro coulomb point charge are initially extremely far apart. How much work does it take to bring the -4.8 micro coulomb charge to x = 8.0mm, y = 0.00 mm and the -10.3 micro coulomb charge to x = -6.0 mm, y = 0.00mm?
A -4.8 micro coulomb charge and a -10.3 micro coulomb point charge are initially extremely far...
PB_01: A-3.0-uC point charge and a -9.0-4C point charge are initially extremely far apart. How much work does it take to bring the -3.0-4C charge to x = 3.0 mm, y = 0.00 mm and the -9,0-1C charge to x = -3,0 mm, y = 0.00 mm? (k = 1/4X80 = 8.99 109 Nm2/C2)
A -3.0-mu C point charge and a -9.0-mu C point charge are initially extremely far apart How much work does it take to bring the -3.0- mu C charge to x = 3.0 mm, y = 0.00 mm and the -9.0-mu C charge to x- = -3.0 mm, y = 0.00 mm? (k = 1/4 pi epsilon_0 = 8.99 times 10^9 N middot m^2/c^2) 27 J 40 J 81 J 6.8 J Two identical small charged spheres are a certain...
28) A 7.0-μC point-like charged object and a 9.0-μC point-like charged object are initially extremely far apart. How much work does it take to bring the 7.0-μC object to the position x = 3.0 mm, y = 0.0 mm, and the 9.0-μC object to the position x = -3.0 mm, y = 0.0 mm? (k = 9.0 × 109 N∙m2/C2) A) 95 J B) 190 J C) 63 J D) 16 J
A dipole with ±6.0 μC charges is positioned so that the positive charge is 1.0 mm to the right of the origin and the negative charge is at the origin. How much work does it take to bring a 10.0 μC charge from infinity to a position x = 3.0 mm, y = 0.0 mm?
Determine the total Coulomb force on a charge q = +5.00 C located at the point (5.00, 3.00) due to the four charges in the table below. 91 92 93 94 Charge (mC] +6.00 -3.00 -4.00 +2.00 x (m) 4.00 1.00 8.00 7.00 y (m) 0.00 4.00 1.00 5.00 Simulate in Interactive Physics and determine the percent error for the x component and y component for the total Coulomb force on charge q.
A 1.5 micro C charge is 14 mm north of location X. A -2.3 Micro C charge is 11 mm south of X. A) What is the electric potential at location X? Assume the potential is zero at infinity. B) How much electric potential energy would be added to the system if a 1.7 micro C charge were placed at location X. Show all your Work.
1) How does a coulomb of charge compare to the charge of a single electron? a A Coulomb is much smaller than the charge of the electron. b A Coulomb is slightly smaller than the charge of the electron. c A Coulomb is about the same size as the charge of the electron. d A Coulomb is slightly larger than the charge of the electron. e A Coulomb is much larger than the charge of the electron. 2) There are...
How far from a -6.20 μC point charge must a 2.40 μC point charge be placed in order for the electric potential energy of the pair of charges to be -0.500 J ? (Take the energy to be zero when the charges are infinitely far apart.
How far from a -7.40 μC point charge must a 2.50 μC point charge be placed in order for the electric potential energy of the pair of charges to be -0.600 J ? (Take the energy to be zero when the charges are infinitely far apart.) Express your answer in meters
How far from a - 3.6 μC point charge must a +6.0 μC point charge be placed for the electric potential energy of the pair of charges to be -0.5 J? (As usual, take the electric potential enregy to be zero when the charges have infinite separation.)