4. You are given a vertically downward electric field of magnitude E =150 N/C. Find the electric potential difference V, -V, by moving a positive test charge q, vertically downward through a distance d = 520 m. Answer: -78 kV
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A: Given data qA=-80 μCqB=168 μCdAP=22 cm Here, qA is the charge of A, qB is the charge of point B and…
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A: Q = - 7.7 ×10-⁶ C Vi = 0 v Vf = 55 v
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Q: 5. Three point charges, q 10 uC, q2 =-15 uC and qs 8 µC are fixed at the positions shown below. (a)…
A: (given) Three point charges are q1=10 μC =10×10-6 Cq2=-15 μC =-15×10-6 Cq3=8 μC =8×10-6 C…
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A: Potential difference of A and B is find by the VB-VA=-WABq0 Given Charge, q0=2.0×10-6C Work done by…
Q: 6-9. A spherical shell has inner radius b, outer radius c, and total charge −Q. Located in the big…
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Q: 1) An electric field is given by Ex = 5.3x³ kN/C. Find the potential difference between the points…
A: The expression for the electric field is Ex=5.3x3 kN/C.
Q: A point charge with a certain distance, carries an electric field with magnitude equal to 525.8 V/m…
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Q: The electric field along the x-axis is given by Ê = axî where a = 21 N/m.C. Find the electric…
A: Given a=21N/mC X1=0.8m and X2=2.4m
Q: Two point charges, Q = +5.40 μC and q = −2.00 μC, are separated by 5.0 m. What is the electric…
A: Two point charges, Q = +5.40 μC q = −2.00 μC separated by distance r = 5.0 m. 1μC = 10-6C.
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Q: y, cm 42 10 B х, ст 10 20
A: as we know potential at a point due to a point charge is , v=kq/r, r=distance from charge
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A: Charge at point A is Charge at point B is Charge at point C is The charges are placed at the corners…
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Q: 5. An infinitely long insulating cylinder of radius R has a volume charge density p = ar?, where a…
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Q: How much excess charge must be placed on a copper sphere 6.7 cm in diameter so that the potential of…
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Q: A negatively charged polythene sphere of mass 3.5 × 10-15kg is held stationary between two…
A: mass of the sphere , m = 3.5 x 10-15 kg. Separation between the plates , d = 5.00 mm = 5 x 10-3 m…
Q: Calculate the electric potential a distance 5.6 x 104 km from a point charge of -3.6 × 10 C.
A: d=5.6*10^-1 m Q=-3.6*10^-4 C Potential = k*Q/d where k=9*10^9 Nm2 /C2
Q: How much excess charge must be placed on a copper sphere 4.4 cm in diameter so that the potential of…
A: Given data: The radius of the sphere is ra=4.4 cm=0.044 m The potential is V=0.27 kV=270 V
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Q: 1. In the figure shown, what is the net electric potential at point P? The 4 point particles all…
A: Electric potential due to charge Q at distance d is given by V= KQ/d. Calculating electric potential…
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Q: 41 a 92 b 93 Three point charges q1 = 6 µC, q2 = -3 µC and q3 are located as shown in the figure…
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Q: 16. An electric field along x-axis is given as Ex = (4x' + 2x*)i, what is the voltage difference…
A: Due to multiple questions posted, we will be answering the first question. If any specific questions…
Q: A spherical conductor has a radius of 8 mm and a charge of 20μC. Calculate the electric potential at…
A: Given that, q=20μC=20×10−6CR=8 mm=8×10−3m For conductor potential at surface is equal to potential…
Q: Two point charges, A & B (qA = -80 ?C & qB = 168 ?C), are separated by an unknown distance. The…
A: Solution:-Given thatqA=-80μC=-80×10-6 CqB=168 μC=168×10-6 CAP=22 cm=0.22 m
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Q: The work done by the electric field as the charge, +2.0x10-6 C, moves from Ato B is +5.0x10-5 J.…
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Q: The electric potential in a certain region is given by 40.0 Vx) = 7.82 + where V is in volts and x…
A: The equation of the potential is, Vx=7.82+40x
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