A 28-μC (1 μC = 10-6 coulomb) point charge is sitting at the origin. The potential V it produces at (8.0 m, 0 m) on the x-axis is (k = 8.99×109 Nm2/C2)
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A 28-μC (1 μC = 10-6 coulomb) point charge is sitting at the origin. The potential...
A 28-μC (1 μC = 10-6 coulomb) point charge is sitting at the origin. A 1.0-C point charge is placed at (9.4 m, 0 m) on the x-axis. The electric potential energy between the two charges is (k = 8.99×109 Nm2/C2) Question 8 options: a) 27,000 J. b) 29,000 J. c) 2,500 J/C. d) b. 28,000 J.
A point charge with charge q1 = 3.10 μC is held stationary at the origin. A second point charge with charge q2 = -4.50 μC moves from the point ( 0.120 m , 0) to the point ( 0.270 m , 0.250 m ). How much work W is done by the electric force on the moving point charge? Express your answer in joules. Use k = 8.99×109 N⋅m2/C2 for Coulomb's constant: k=14πϵ0.
A point charge with charge q1 = 3.90 μC is held stationary at the origin. A second point charge with charge q2 = -4.40 μC moves from the point ( 0.150 m , 0) to the point ( 0.280 m , 0.255 m ). How much work W is done by the electric force on the moving point charge? Express your answer in joules. Use k = 8.99×109 N⋅m2/C2 for Coulomb's constant: k=14πϵ0.
A point charge with charge q1 = 2.50 μC is held stationary at the origin. A second point charge with charge q2 = -4.10 μC moves from the point ( 0.160 m, 0) to the point ( 0.255 m, 0.280 m ). How much work W is done by the electric force on the moving point charge? Express your answer in joules. Use k = 8.99×109 N⋅m2/C2 for Coulomb's constant: k=1/4πϵ0.
A point charge with charge q1 = 4.00 μC is held stationary at the origin. A second point charge with charge q2 = -4.30 μC moves from the point ( 0.145 m , 0) to the point ( 0.290 m , 0.280 m ). How much work W is done by the electric force on the moving point charge? Express your answer in joules. Use k = 8.99×109 N⋅m2/C2 for Coulomb's constant: k=1/4πϵ0.
What is the electric potential at a distance of 9.3×10-9 m from a proton? (charge of proton is e = 1.602×10-19C; k = 8.99 x 109 Nm2/C2) Question 17 options: a) 0.15 J/C. b) 2.7 J/C. c) 5.3 J/C. d) 0.20 J/C. e) 27 J/C.
A point charge of 5.1 μC is located at the center of a sphere with a radius of 7 cm. The Coulomb constant is 8.98755 × 109 Nm2/C2, and the acceleration of gravity is 9.8 m/s2. Determine the electric flux through the surface of the sphere. Answer in units of N/C.
Three point charges lie on the x axis. Charge 1 (-2.4 μC ) is at the origin, charge 2 (+3.5 μC ) is at x =7.5 cm, and charge 3 (-1.7 μC ) is at x =11 cm. k=8.99×109N⋅m2/C2. What is the magnitude of the total force exerted on charge 2?
The force of attraction that a -60.0 μC point charge exerts on a +220 μC point charge has magnitude 5.00 N. How far apart are these two charges? (k = 1/4πε0 = 8.99 × 109 N ∙ m2/C2)
1. At what separation will the electric force between charges of 2.9 μC and 4.5 μC have a magnitude of 0.35 N ? k=8.99×109N⋅m2/C2. 2. Find the magnitude of the electric force between the charges 0.12 C and 0.33 C at a separation of 2.5 m. k=8.99×109N⋅m2/C2. 3. Three point charges lie on the x axis. Charge 1 (-2.1 μC) is at the origin, charge 2 (+3.2 μC ) is at x = 7.5 cm, and charge 3 (-1.8 μC...