What is the distance between charge q: = +7,22 µC and q2 = -26,1 µC to provide electric potential energy -126 Joule?. (k = 8.99 x 10° N• m/c).
Q: Find the electric potential energy ( in units of J) stored in a system composed of two point charges…
A: Given- Distance between two charges d=3.5 mm= 0.0035 m q1=9.1 μC=9.1×10-6Cq2=11.5 μC=11.5×10-6C
Q: A negative charge q= -9.0x 10-3 C is released from rest at point A, where the electric potential is…
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Q: What is the electric potential in units of Volts at a distance of 15.3 mm from a point charge of…
A: Electric potential at point is given by V = Kq /r q = point charge r = distance between…
Q: A point charge with a charge of -422.3 uC is located at (-7.9,3.9) m. A second charge with a charge…
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Q: (a) Define electric field and electric potential with units and express the relationship between…
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Q: 6. Figure shows two charged particles separated by 12 cm. Find the electrostatic potential energy of…
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Q: 1. Three charges are located at the corners of a rectangle as shown below. Find the potential at…
A: 3 Charges are placed at three corners of a rectangleq1 = 1 μCq2 = -3 μCq3 = 4 μCsides of rectangle…
Q: For the following charge distribution, if Q1=3*10® C, Q2 = - 3*10°C, Q3 = - 2*10°C, then, the…
A: The electric potential at a distance due to the charge is given by V =k qr where, r is the…
Q: 1 500 J of work are required to carry a charged particle between two points with a potential…
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Q: Charges Q1 = + 3.2 x 10-19 C and Q2 = - 4.8 x 10-19 C are located at x = 5.0 cm and x = 10.0 cm,…
A: Let potential be zero at x=x0
Q: How far must the point charges q1 = +6.22 mC and q2 =-22.1 mC be separated for the electric…
A: q1 = + 6.22 mC q2 = - 22.1 mC Potential energy, U = - 106 J
Q: Two point charges q1 = (-1.0000x10^0) µC and q2 (1.000x10^0) µC. q1 is located at (x, y)-(…
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Q: A system of point charges includes q1= +1 microC at x1 = 2m, y1 =2m, q2= -1 microC at x2= -3m, y2=…
A: a)Electric potential at point C would be
Q: If a charge of magnitude 7.9 X 10^-17 C is being held in place 3.5 X 10^-8 m from a change of -2.1 X…
A: Step1 - Here we will solve Question(1). Given - (q1) = 7.9×10-17 C (q2) = -2.1×10-19C…
Q: The work done by the electric field as the charge, +2.0x10-6 C, moves from A to B is +5.0x10-5 J.…
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: PHYSICS 12 12. The work done by an external force to move a -8.0 uC charge, O, from a to b is 25.0 x…
A: charge (Q) = -8 μC work done to move charge from a to b = 25×10-4 J Initial kinetic energy = 0 J…
Q: 7. Four point-like charges are placed as shown in the figure, a = 38.0 cm and b = 48.0 cm. Find the…
A: The charges are placed in a rectangular configurationq1=-1.6μC=-1.6×10-6 Cq2=-2.6 μC=-2.6×10-6…
Q: How much work is required to move a charge q=1.6x10-1°C through a potential difference of 3.00…
A: charge (q) = 1.6×10-19 C potential difference (V) = volts
Q: Find the electric potential energy ( in units of J) stored in a system composed of two point charges…
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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: -6.36 C P 0.2 m 0.471 m + 7 μο 10.5 C Find the electric potential at point P due to the rectangular…
A: Electric potential is,
Q: Find the electric potential energy (in units of J) stored in a system composed of two point charges…
A: The relation of the electrical potential energy is U=keQ1Q2r
Q: Three negative charges are arranged as shown in the diagram below. The charges are Q1 = -6.2 nC, Q2…
A: Given data The magnitude of charge 1 is given as Q1 = - 6.2 nC. The magnitude of charge 2 is given…
Q: The last surviving dodo bird had been hiding out on a far-away island with only a 73-μC point charge…
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Q: Two charges +q and -2q are placed on opposite corners of a square with sides 3 cm. If q = 1.5 x 10-9…
A: Given data: Q1 = +q = +1.5×10-9 C Q2 = -2q = -3×10-9 C Side of square (r) = 3 cm = 0.03 m Coulomb…
Q: A charge Qis uniformly distributed along the x axis from X = a to x = b. If Q = 45 nC, a = -3.0 m,…
A: Given, Length of charge linear rod L =3+2=5.0m and point is r=6.0m distance away
Q: Four charges, qı = 5.00x10-C, q2 = -3.00x10-7C, q3 = -2.00x10-?C, and q̟ = 6.00x10-°C, are situated…
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Q: Over a certain region of space, the electric potential is V(x.y.z)= -10 x -6xy + 4yz?. The…
A: The electric potential is given by: Vx,y,z=-10x-6xy+4yz2 ......... (1) The y-component of the…
Q: Calculate the electric potential of q1 = 25.0nC at 2.00 m.
A: Answer:- Given Charge (q1) = 25.0 nC = 25.0 × 10-9 C Distance (r) = 2.00 m Coulomb constant (K)…
Q: a) Calculate how much work is required to set up the arrangement if the charges are initially…
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Q: How much energy is necessary to place three charges, each of 5.0 uC, at the corners of an…
A: Given values: Charge, q1=q2=q3=q=5.0 μC Side of the equilateral triangle, a=0.200 m
Q: Three points A, B and C are located at the corners of a right angle triangle as shown in the figure.…
A: Given, q1=+0.70 μC q2=+1.0 μC r=AB=52+2.52=5.6 cm a) Potential energy…
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: There is an electric field of strength 3.5 x 10-N/C between two parallel plates. The two plates are…
A: Given that:Two parallel plates havingE=3.5×10-5 N/Cd=3.5 mmq=2.75 nC
Q: - 22.4 μC , Q-38.6 μC, and Q3 = 57.3 µC, are arranged as shown in the figure. The Three point…
A: Given, Q1 = 22.4 μCQ2 = -38.6 μCQ3 = 57.3 μCx = y = 50.1 cm = 0.501 m
Q: 1. Calculate the electric potential of q1 = 25.0nC at 2.00 m. %3D 2. Calculate the potential energy…
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Q: The amount of work done due to carrying a q=+4μC charge from point A to point B is equal to w=100μJ.…
A: charge (q) = 4μC work (W) = 100μJ
Q: Find the work done to transfer a point charge q=+5 µC in the electric field: wwwwwww E=yi-xj From…
A: Potential difference between two points: The work required to move a unit positive charge from…
Q: Three equal point charges q 20Care located at points with coordinates (-4.0 cm, 01, (4.0 cm. 0 and…
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Q: Using the diagram below, calculate the electric potential at points A and B due to the charges…
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