Three point charges q are placed at the corners of an equilateral triangle. Another point charge -Q is placed at the centroid of the triangle. If the force on each of the charges q vanishes, then the ratio Q/q
Q: Two charges, Q1 = 4.0 µC and Q2 = −1.0 µC are placed along x axis at points (0, 0) cm and (5.0, 0)…
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Q: Two identical small conducting spheres are separated by 0.60 m. The spheres carry different amounts…
A: Given thatSeperation between the charges=0.60mThe total charge on sphere=Electric force (F)=10.8NTo…
Q: If q1 is located at x = 8m, where on the x-axis should q2 be located such that the two-point charges…
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Q: Three point charges are located on the corners of an equilateral triangle of a side length a as…
A: The three charges placed at the corners of the equilateral triangle will experience electrostatic…
Q: Consider three point charges as shown below. Find the resultant force on q3 if 9₁ +6.00 x 10-⁹ C =…
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Q: Two charges, Q₁ = 4.0 µC and Q2 = -1.0 μC are placed along x axis at points (0,0) cm and (5.0, 0)…
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Q: Three charges are placed in an L-shape. Charge A is on the y-axis at y = 4.0 x 10 -9 m, Charge B is…
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Q: Problem 6: Five point charges are located on the y-axis. Two are positive with charge q = 0.31 mC…
A: Electric field due to Negative charge at origin E-=-kqb2i=-9×109 Nm2C20.31×10-3 C5 m2i=-111600 NC i…
Q: Three negatively charged spheres, each with a charge of 4.0 x 10-6C, are fixed at the vertices of an…
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Q: (a) Two point charges totaling 9.00 μC exert a repulsive force of 0.150 N on one another when…
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Q: Three charges are arranged on x-axis : q2 = + 4 uC is at x=0 , q1 = - 3 uC is at x=0.2 m , and q3…
A: Given, Charges as: q1=-3 μC at x=0.2 m q2=+4 μC at x=0 m q3=+7 μC at x=0.35 m Note: 1 C=106 μC…
Q: You have 3 charges, each with magnitude 28 JC. One charge sits at (x,y)=(0,0) one at (x,y)-(0.75,0),…
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Q: Two point charges, A and B, are separated by a distance of 22 cm. The magnitude of the charge on A…
A: Given:charge, q1= 2q charge , q2=q distance, d = 22 cmForce, F = 46 N
Q: Two point charges are placed on the x axis as follows: Charge q₁ = +3.80 nC is located at x = 0.215…
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Q: You have 3 charges, each with magnitude 44 μC. One charge sits at (x,y)=(0,0) one at (x,y)=(1,0),…
A: 1. Charge at (1,1)1.1. Force due to charge at (0,0):Distance:r=(1−0)2+(1−0)2=2Force…
Q: Two negative and two positive point charges (magnitude Q� = 4.88 mCmC ) are placed on opposite…
A: The objective of this question is to determine the magnitude and direction of the force on each…
Q: Three point charges are located at the corners of an equilateral triangle with sides of 10.0 cm as…
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Q: Three charges lie on the x axis: q1= + 20 μC at the origin, q2= - 9 nC at x=3m, q3= +16μC at x= 5 m.…
A: Given, Charges,q1=20μC=2×10-6C,q2=-9nC=-9×10-9C,q3=16μC=1.6×10-5C Positions of charges, x1=0 m, x2=3…
Q: Three charges are arranged on x-axis : q2 = + 4 uC is at x=0 , q1 = - 3 uC is at x=0.2 m , and q3…
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Q: Two point charges Q and 4Q are at x = 0 and x = L, respectively, and free to move. A third charge is…
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Q: Four electrically charged spheres are located on the corners of a square whose sides measures 5 cm.…
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Q: You have 3 charges, each with magnitude 78 μC. One charge sits at (x,y)=(0,0) one at (x,y)=(0.9,0),…
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Q: If two point charges are separated by 1.5 cm and have charge values of 2.0 uC and -4.0 uC, what is…
A: Given: charge(q1)=2.0uC charge(q2)=-4.0uc distance of separation(r)=1.5cm=0.015m To find: Mutual…
Q: True or False? the magnitude of electric force between two point charges varies directly as the…
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Q: charge of +2.0 ?C is placed at the origin, -2.0 ?C to the right at x = 50 cm, and +4.0 ?C at the 100…
A: Given Three point charges are placed on the x-axis. A charge of +2.0 ?C is placed at the origin,…
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- The strategy to use when calculating the force exerted by a set of several point charges is to find first the forces exerted by each of the point charges individually. The force exerted by the entire set of charge is the net force resulting from the forces exerted by the individual charges. The forces from the individual charges in this problem are shown in the diagram below. F12 191 0.100 m FR F13 93 0.316 m so the magnitude of this repulsive force is given by the following equation %3D The charge q, exerts a repulsive force F, 2 on q, as shown in the diagram. The distance separating these charges is r,2 where k, is the Coulomb constant in SI units. e 19,|1921 F12 = k r12 c2) х 10-18 (8.99 x 109 N · m²/c2)- ? m)* x 10-6 NA 6.4-μC charge is placed at the origin and a second charge is placed on the x-axis at 0.18 m. If the resulting force on the second charge is 8.2 N in the positive x-direction, what is the value of its charge?Three identical metal spheres designated P, Q and R are charged as shown below. The distance PQ is the same as QR. The magnitude of the electric force acting on the following sphere is smallest: P Q R + 4 nC -2 nC -1 nC
- Point charges q1 = 47 µC and q2 = −15 µC are placed 1.5 m apart. Where must q3 = 24 µC be placed (on the x-axis, in m) so that the net force on it is zero? (Assume that q1 is at x = 0 and q2 is at x = 1.5 m.) x = mThree point charges are arranged on a line. Charge q3 = +5.00 nC and is at the origin. Charge q2 = -3.00 nC and is at x = +4.00cm. Charge q1 is at x = +2.00cm. What is q1 (magnitude and sign) if the net force on q3 is zero?Three point charges q, -q and q are placed at the corners A, B, C of an equilateral triangle respectively. The length of each side of the triangle is L. The resultant electric force acting on the point charge at A is F. Find the magnitude of the resultant force acting on the point charge at B if the length of each side of the triangle becomes 2L. B VF 2 or F/4 F A+ L L C +
- Three point charges are located on the x-axis. The first charge, q1 = 10.0 µC, is at x = -1.00 m; the second charge, q2 = 20.0 µC, is at the origin; and the third charge, q3 = -30.0 µC, is located at x = 2.00 m. What is the force on q2? O 1.65 N in the negative x-direction 1.50 N in the negative x-direction 4.65 N in the negative x-direction O 4.80 N in the positive x-direction 3.15 N in the positive x-directionCharges of +2 , +3 and –8 µC are placed in air at the vertices of an equilateral triangle of side 10 cm. Calculate the magnitude of the force acting on the −8 µC due to the other 2 charges.Three charges are placed at the vertices of an equilateral triangle of side equal to 10 cm. The charges are +2.0 μC, 3.0 μC, and -8.0 μC. Solve for the magnitude of the force acting on the -8.0 μC due to the presence of the other two charges
- Two point charges are located 2.5 mm apart. The force between the particles has a negative magnitude of 4.0N. If the two point charges are moved 5.0 mm apart and everything remains the same, the new face between the charges will have a magnitude of? I know the answer is 1.0 N but how?Point charges q1 = 42 µC and q2 = −21 µC are placed 3.5 m apart. Where must q3 = 27 µC be placed (on the x-axis, in m) so that the net force on it is zero? (Assume that q1 is at x = 0 and q2 is at x = 3.5 m.) x=____ mA positive charge of 9 µC exerts and attractive force of 1 N on an unknown charge 0.8 m away. The unknown charge in µC: