What is (Fnet 3)z, the x-component of the net force exerted by these two charges on a third charge q3 = 50.0 nC placed between qi and q2 at æ3 = -1.240 m ?Your answer may be positive or negative, depending on the direction of the force.Express your answer numerically in newtons to three significant figures.?X•10"(Fnet 3)z%3D Coulomb's law for the magnitude of the force F between two particles withcharges Q and Q separated by a distance d is|F] = K_Q0Id?where Kand eo = 8.854 x 10–12 C² /(N - m²) is the permittivityof free space.Consider two point charges located on the x axis: one charge, q1 = -10.0 nC,is located at z1 = -1.735 m ; the second charge, q2 = 31.5 nC, is at the origin(r = 0).

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Coulomb's law for the magnitude of the force F between two particles with charges Q and Q separated by a distance d is |F|= K 1991 d² where K = 1 4π€ , and € = 8.854 x 10-12 C²/(N - m²) is the permittivity of free space. Consider two point charges located on the x axis: one charge, q₁=-17.5 nC, is located at Z₁ = -1.715 m; the second charge, q2 = 36.5 nC, is at the origin (z = 0). Part A What is (Fnet 3)z, the x-component of the net force exerted by these two charges on a third charge q3 = 50.5 nC placed between ₁ and 92 at 23 = -1.200 m ? Your answer may be positive or negative, depending on the direction of the force. Express your answer numerically i newtons to three significant figures. ► View Available Hint(s) (Faet 3) z = Submit ΫΠΙΑΣΦΑ xa Xh √x vx -2.93.10-5 Previous Answers X Incorrect; Try Again; 8 attempts remaining IXI ? x 10m
Two identical balloons are inflated and charged in the same manner. They are tied by threads and hung from the same pivot point on the ceiling. The balloons hang down, with the threads making an angle of 14° with each other and the balloons being separated by a distance of 58 cm (center-to-center). Each balloon has a charge of - 3.5x10-7 C. Draw a free-body diagram for the balloons and consider them to act as point objects.
A 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:
Three charged marbles are glued to a nonconducting surface and are placed in the diagram as shown. The charges of each marble are q1 = 6.20 µC, q2 = 1.01 µC, and q3 = −2.14 µC. Marble q1 is a distance r1 = 3.00 cm to the left of the marble q2, while marble q3 is a distance r3 = 2.00 cm to the right of the marble q2, as shown. Calculate the magnitude of the electric field a distance r' = 1.00 cm to the left of the center marble. What is the electric field due to each individual marble? How do you find the total or "net" electric field when you have several electric fields? Another marble is placed 1 cm to the left of the middle marble. If this new marble has a charge of −3.62 µC, calculate magnitude and direction of the force on it.
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You hold a ruler that has a charge on its tip 4.00 cm above a small piece of tissue paper to see if it can be picked up. The ruler has −10.0 µC of charge. The tissue has 1.00 g of mass. What is the minimum charge required to pick up the tissue paper?
Three point charges are located at the vertices of an equilateral triangle. The charge at the top vertex of the triangle is given in the figure. The two charges q at the bottom vertices of the triangle are equal. A fourth charge 5 µC is placed below the triangle on its symmetry- axis, and experiences a zero net force from the other three charges, as shown in the figure below. –3.9 μC 9 -1.9 m 5.1 m 5 μC Find q. The value of the Coulomb constant is 8.98755 x 10º N - m²/C².
A sphere of radius R is charged with total charge -2g distributed uniformly inside the sphere's volume (p = constant). In addition to the volume charge, there are also two point charges q inside the sphere, both on the x axis, at identical distances from the center, d (see figure). y -29 R q q 6 d d x What should be the value of d so that both point charges would be at equilibrium? Select one: O a. d= ○ b. d = R2R 23 О с. d = 2 ○ d. d = R Ꭱ ○ e. d = RRRL 4 Ꭱ
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Common static electricity involves charges ranging from nanocoulombs to microcoulombs. (a) How many electrons are needed to form a charge of −4.50 nC? (b) How many electrons must be removed from a neutral object to leave a net charge of 0.410 µC?
Four identical metal spheres have charges of qA = -8.0 μC, qb=-2.0 μC, qc=+5.0 µC, and qp=+12.0 µC. (a) Two of the spheres are brought together so they touch, and then they are separated. Which spheres are they, if the final charge on each one is +5.0 μC? A and C V (b) In a similar manner, which three spheres are brought together and then separated, if the final charge on each of the three is +3.0 µC? A+B+D B+C+D A+B+D A+C+D A+B+C N = Number harge on each of the three separated spheres in part (b) is +3.0 µC. How many electrons would have to be added to one of to make it electrically neutral? i Units
Three charged marbles are glued to a nonconducting surface and are placed in the diagram as shown. The charges of each marble are q₁ = 6.70 µC, 92 = 1.01 µC, and q3 = -2.27 μC. Marble q₁ is a distance r₁ = 3.00 cm to the left of the marble 92, while marble q3 is a distance r3 = 2.00 cm to the right of the marble q2, as shown. Calculate the magnitude of the electric field a distance r' = 1.00 cm to the left of the center marble. N/C y K t * 91 92 observation point ---Select--- V 93 Another marble is placed 1 cm to the left of the middle marble. If this new marble has a charge of -3.71 µC, calculate magnitude and direction of the force on it. magnitude direction N 7₂=0m

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