What is the force F, on the charge located at x = 16.00 cm in the figure given that q = 1.250 µC? The other two charges are located at 6.000 cm and 22.00 cm. Take the positive direction as pointing to the right. The Coulomb constant is 8.988 × 10° N-m²/C². +q -29 +q + + 10.00 20.00 x (cm) Fx = N
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- the diagram as shown. The charges of each marble are q₁6.50 μC, 9₂ 1.17 pc, and q3 -1.79 μC. Marble q, is a distance r = 3.00 cm to the left of the marble q₂, while marble q, 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 = 1.00 cm to the left of the center marble. N/C 4 observation point 92 r₂ = 0m Another marble is placed 1 cm to the left of the middleimarble. If this new marble has a charge of 3.71 µC, calculate magnitude and direction of the force on it. 77. x magnitudeFour charges of the same magnitude of q = 1.0 nC are placed in a corners of a square with the side of a = 10 cm. See the figure for the charge signs. Find the electric field (magnitude and direction) in the center of the square. +q a +q a -9 a -9 Select one: O 30750 N/C, leftward O 5090 N/C rightward O 30750 N/C, rightward O 50900 N/C, leftward O5090 N/C, leftward O 50900 N/C, rightwardThree charges are placed along the x-axis: q1 = 3.00 µC at X1 = -20.0 cm, q2 = -5.00 µC at x2 = 10.0 cm, and q3 = 6.00 µC at x3 = 25.00 cm. Determine the magnitude of the electric field at the origin. O 4 69x106 N/C O 2 96x106 N/C O 6 04x106 N/C O 4.31x106 N/C
- There are two point charges q1=(7.000x10^0) µC and q2=(-3.0000x10^0) µC. q1 is located at origin (0, 0). q2 is located at (4.00x10^0) m,(5.000x10^0) m). Now we place another point charge q3 = (1.0000x10^1) µC at ((4.00x10^0) m, 0), i.e. q3 is right underneath of q2. Please calculated the X-component of the electrostatic force on q3 . Give your answer in the unit of N with 3 sf. Note: Use the sign to represent the direction, for example -2.11x10^-4 means the force is on the negative x direction.Find the x and y component of the electric field (in newtons per coulomb) at the centre of the square.Three point charges lie along a straight line as shown in the figure below, where q₂ = 6.54 μC, 92 = 1.38 µC, and q3 = -1.94 μC. The separation distances are d₁ = 3.00 cm and d₂ = 2.00 cm. Calculate the magnitude and direction of the net electric force on each of the charges. esc (a) q₁ 91 magnitude N direction to the left ✔ 1 (b) 9₂ - magnitude direction to the right (c) Q3 Need Help? Read I magnitude N direction to the left ✔ 1 / 92 Q A N FI N @ 2 W S X H command 93 -83 G 3 E D 20 F3 C $ 4 F4 R F V 25 % FS T G ^ 6 B MacBook Air FG Y H & 7 N F7 U J * 00 8 DII FB 1 M ( 9 K F9 O < H ) O L F10 command P ; F11 + 11 [ option 11 1 F12 1 delete
- magnitude direction BµC 60.0⁰ A μC No 0.500 m i (a) Three point charges, A = 1.70 μC, B = 7.25 μC, and C = -4.60 µC, are located at the corners of an equilateral triangle as in the figure above. Find the magnitude and direction of the electric field at the position of the 1.70 μC charge. N/C ° below the +x-axis Cuc (b) How would the electric field at that point be affected if the charge there were doubled? The magnitude of the field would be halved. The field would be unchanged. The magnitude of the field would double. The magnitude of the field would quadruple. Would the magnitude of the electric force be affected? OYesTwo point charges are lying on the y- axis as in the figure: q₁ = -4.10 μC and 92 = +4.10 µC. They are equidistant from the point P, which lies on the x- axis. (a) What is the magnitude of net electric field at P? (b) A small object of charge qo = 7.30 µC and mass m = 1.24 g is placed at P. When it is released, what is the magnitude of its acceleration? 91 92 + (a) Number (b) Number 0.880m 31.5 31.5° 0.880 m +x Units Units !!