Ex 23 : The energy required to move a charge of 0.25 C between two points is 4 x 1020 eV. The potential difference between them is (СЕТ-2006) (a) 100 V (b) 256 V (c) 200 V (d) 128 V
Q: 0.200 m -2.00 µC +6.00 µC 0.200 m 0.200 m +4.00 uC Three point charges, -2.00 µ C, +4.00 µ C, and…
A: Solution:-Given that
Q: = What is the electric potential at point P due to the three charges shown in a figure below? (k…
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Q: If 500 J of work are required to carry a charged particle between two points with a potential…
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Q: Two point charges, A & B (qA = -80 ?C & qB = 168 ?C), are separated by an unknown distance. The…
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…
Q: Consider a square of side p nd the potential at the center of the square.
A: Square side p = 2.9cm = 2.9x10-2 m Charge on each corner q = 7uC = 7x10-6 C Electric potential at…
Q: 12 3 10 8. (w:
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Q: A spherical surface of radius R=10 cm carries a charge of 5 ×10-9 C. The potential at the center of…
A: To determine: The potential at the center of the sphere Given: Radius of sphere, R=10 cm=0.1 m…
Q: The amount of work done due to carrying a q=+4μCq=+4μC charge from point AA to point BB is equal to…
A: Given The charge is given as q=+4 μC=+4×10-6 C Work done is W=100 μJ=100×10-6 J We have to find…
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: In the figure, q1 = +2.00 nC and q2 = -8.00 nC. What is the electric potential at x = 5.00 cm due to…
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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: The drawing shows six point charges arranged in a rectangle. The value of g is 7.50 μC, and the…
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Q: The drawing shows six point charges arranged in a rectangle. The value of q is 1.23 μC, and the…
A: Step 1: ( If you have any questions related to this problem please feel free to ask me).
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.
Q: the electric potential at point P due to these charges may be expressed as, taking k as Coulomb…
A: Three charges as qA=-2 μC, qB=4 μC and qC=+6 μC Coordinates of charge qA are -0.200 m, 0 m Charge qB…
Q: Two point charges Q1 = -80.0 µC and Q2 = 40.0 µC are separated by a distance di = 10.0 cm, as shown…
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Q: A small object with a mass of 450 μg carries a charge of 35.0 nC and is suspended by a thread…
A: Given: Mass of object(m) = 450×10-9 kg Charge of object(q) = 35×10-9 C Plate…
Q: The membrane that surrounds a certain type of living cell has a surface area of 4.90 * 10^-9 m2 and…
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Q: In a certain region, the electric potential due to a charge distribution is given by the equation…
A: Given V(x,y) = 2xy-x2-y
Q: The work done by an external force to move a charge from point A to point B is 15x10^4). If the…
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Q: A 0.450 cm diameter plastic sphere, used in a static electricity demonstration, has a uniformly…
A: Given Diameter of plastic sphere , d = 0.450 cm Chage , q = 55.0 pC = 55×10-12 C Let Potential =…
Q: If 500 J of work are required to carry a charged particle between two points with a potential…
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Q: Three point charges, Q1 = 18.4 µC, Q2 = -33.6 µC, and Q3 = 67.3 µC, are arranged as shown in the…
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Q: Two positive point charges q1 = +2.46 µC and q2 +6.49 µC are placed at the opposite corners of a…
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Q: A small spherical object carries a charge of 2.50 nC. (Note: Assume a reference level of potential V…
A: Charge on object Q = 2.50 nC = 2.50 * 10-9 C We need to find the distance from center of this object…
Q: Two plates of area 20.0 cm? are separated by a distance of 0.0480 cm. If a charge separation of…
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Q: The plates of a parallel-plate capacitor are 2.50 mm apart, and each has an area of 10.5 cm². Each…
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Q: uniform electric field exists in the region erence between the two plates is between two oppositely…
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Q: Two conductors having net charges of +13.9 μC and -13.9 μC have a potential difference of 13.9 V…
A: Charge q = 13.9 uc = 13.9 ×10-6 C Potential difference = 13.9 v
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: Consider a point charge of value 59 × 10-5 C. Part (a) At what distance from the 59 × 10-5 C…
A: Point charge (q) = 59×10-5 C Potential (V) = 68 V
Q: A uniform electric field of magnitude 336 V/m is directed in the positive x-direction. Suppose a 19…
A: The magnitude of the electric field is, E=336 V/m. The magnitude of the charge is, q=19 μC=19×10-6…
Q: Two plates of area 30.0 cm² are separated by a distance of 0.0480 cm. If a charge separation of…
A: Given, the area of each plate, A= 30 cm2=30*10-4 m2 Separation distance, d= 0.0480 cm = 0.000480 m…
Q: In the image are two-point charges, Qi =-90.0x10 C and Q= 50.0x10 C, separated by a d1 = 0.100 m.…
A: Charge Q1 = -90.0 X 10-6 C Charge Q2 = 50.0 x 10-6 C distance d1 = 0.10 m distance d2 = 0.04 m
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- Two conductors having net charges of +19.0 μC and -19.0 μC have a potential difference of 19.0 V between them. (a) Determine the capacitance of the system. F (b) What is the potential difference between the two conductors if the charges on each are increased to +361.0 µC and -361.0 μC? VIn (Figure 1), the charge q = 3.97 x 10-⁹ C. Figure -1.00 m -29 0 X +5q O 1.00 m 1 of 1 Part A Find the value of x between -1.00 m and 0 where the electric potential is zero. Express your answer to three significant figures and include appropriate units. Value Submit Part B HÅ O Greater than zero Submit O Less than zero O Equal to zero Part C At values of a to the left of -1.00 m, do you expect the electric potential to be greater than, less than, or equal to zero? Request Answer Submit Value Provide Feedback Units Request Answer Calculate the electric potential at x = -2.00 m. Express your answer to three significant figures and include appropriate units. μA B ? Units Request Answer ?A 2.00 nC charge is placed on the x-axis at x = -3.00 cm, another 2.00 nC charge is placed on the x-axis at x = 3.00 cm, and a third 2.00 nC charge is placed on the y-axis at y = 3.00 cm. What is the potential at the origin? %3D 2700 V 3600 V 5400 V O 1800 V O 108 V
- Three point charges are on the x axis; q, is at the origin, q2 is at x = 13.00 m, and q3 is at x = 26.00 m. (a) Find the potential at the point x = 0, y = 13.00 m if q1 = 92 = 93 = 2.35 µc. kV (b) Find the potential if q1 = 92 = 2.35 µC and q3 = -2.35 µc. kv (c) Find the potential if q1 = 93 = 2.35 µC and q2 = -2.35 µC. kvWhen an electron moves from A to B along an electric field line in the figure, the electric field does 5.70 × 10-19 J of work on it. What are the electric potential differences (a)VB - VA, (b)Vc - VA, and (c)Vc - VB? (a) Number i (b) Number (c) Number i Electric field line Units Units Units EquipotentialsThe figure shows an object with positive charge and some equipotential surfaces (the dashed lines) A, B, C and D generated by the charge. What are the possible potential values of those surfaces? O A=189 V, B = 540 V, C = 933 V and D 1580 V O A=540 V; B = 333 V; C = 2500V and D = 198 V O A1580, B = 970 V, C = 540 V and D = 189 V O A = 2500 V; B = 100 V; C = 900; D = 390 V O None of the choices is correct.
- Problem 1: Consider a point charge of value 78 × 10-5 C. Part (a) At what distance from the 78 × 10-5 C point charge does the potential equal 53 V? Part (b) If measured from a distance of 66 m from the point charge, what is the potential. Part (c) Calculate the difference in potential energy (in eV) experienced by an electron that moves between the distances in parts (a) and (b).There are three point charges in a system. The first is -9.34 micro coulombs and is located at (0,51.5)m. The second is -9.45 micro coulombs and is located at (-97.4,0) m. The third is 5.65 micro coulombs and is located at (-20.4,52.9) m. What is the potential (in V) at the origin due to these three charges?On a stormy day, a cloud is 530 m above the ground. The total charge of the water in the cloud is negative, and the charge on the ground below the cloud is equally positive. The average electric field below the cloud is 7.30×105 V/m upward. What is the potential difference AV between the cloud and the ground. (in V) OA: 3.869×108 B: 4.527×108 OC: 5.296×108 OD: 6.197×108 OE: 7.250x108 OF: 8.483x108 OG: 9.925×108 OH: 1.161×10⁹
- The drawing shows six point charges arranged in a rectangle. The value of q is 4.68 μµC, and the distance d is 0.335 m. Find the total electric potential at location P, which is at the center of the rectangle. Number i +7g d D d 5g Units +3q P 3g d d +5g +7gConsider an electric field given by E = (4.0i + 3.0j)N/C.Determine the absolute value of the potential difference between the points: (x = 2.0m, y = 3.0m) and (x = 5.0m, y = 7.0m). 33.0 V 11.0 V 27.0 V 30.0 V 24.0 VWhat is the excess charge on a conducting sphere of radius r = 0.20 m if the potential of the sphere is 1900 V and V = 0 at infinity? Number Units Use correct number of significant digits; the tolerance is +/-2%