Three point charges are located at the corners of an equilateral triangle as in the figure below. Find the magnitude and direction of the net electric force on the 1.30 µC charge. (Let A = 1.30 µC, B = 6.80 µC, and C = -4.32 µC.) B 0.500 m 60.0° A magnitude direction ° below the +x-axis
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- Three point charges are shown below. q1 = 5.57 μC, q2 = 3.95 μC, and q3 = -12.4 μC. d1 = 5.00 cm and d2 = 3.00 cm. What is the magnitude of the net electric force on q1 in Newtons? 1.00 μC = 1.00 × 10-6 C, 1.00 cm = 1.00 × 10-2 m. Use K = 9.00 × 109 N·m2/C2. Your answer needs to have 3 significant figures, including the negative sign in your answer if needed. Do not include the positive sign if the answer is positive. No unit is needed in your answer, it is already given in the question statement.Three negative charges of -8.13 µC form an equilateral triangle with lengths 1.48 mm on each side. A positive charge of +3.25 µC is at the center of the triangle. (Figure 1) Figure 1 of 1The 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 N
- The figure shows an electric dipole. What is the magnitude of the dipole's electric field at point P? Assume that q = 9.11 × 10° C, d = 6.31 x 106 m, and r = 6.21 cm. L. +9+ d/2 F d/2Two point charges are separated by 25.0 cm (see (Figure 1)). Assume that q = -5.00 nC and q2 = -15.0 nC. Figure 10.0 cm 91 25.0 cm 10.0 cm 1 of 1 Part A: Find the net electric field these charges produce at point A. Express your answer in newtons per coulomb to three significant figures. Part B: Find the net electric field these charges produce at point B. Express your answer in newtons per coulomb to three significant figures. Part C: What would be the magnitude of the electric force this combination of charges would produce on a proton at A? Express your answer in newtons to three significant figures. Part D: What would be the direction of the electric force this combination of charges would produce on a proton at A?Three point charges are arranged as shown in the figure below. Find the magnitude and direction of the electric force on the particle g = 4.82 nC at the origin. (Let r,a = 0.275 m.) magnitude N direction ° counterclockwise from the +x axis 6.00 nC 0.100 m -3.00 nC|
- Three point charges are shown below. q1 = 5.39 μC, q2 = 2.20 µC, and q3 = -13.9 µC. d₁ = 5.00 cm and d2 = 3.00 cm. What is the magnitude of the net electric force on q₁ in Newtons? 1.00 µC = 1.00 × 10-6 C, 1.00 cm = 1.00 × 10-2 m. Use K = 9.00 × 109 Nm²/C² Your answer needs to have 3 significant figures, including the negative sign in your answer if needed. Do not include the positive sign if the answer is positive. No unit is needed in your answer, it is already given in the question statement. 91 + 2 92 + -d₂- 93Three point charges are arranged as shown in the figure below. Find the magnitude and direction of the electric force on the particle q = 4.94 nC at the origin. (Let r12 = 0.260 m.) magnitude 1.391e-5 |-73.51 direction Examine the diagram and determine which quadrant contains the angle of the net force.° counterclockwise from the +x axis 6.00 nC 0.100 m -3.00 nCThree point charges are arranged as shown in the figure below. 5.00 nC -3.00 nC 0.300 m 0.100 m Ⓡ (a) Find the vector electric field that the q = 6.50 nC and -3.00 nC charges together create at the origin. X Your response differs from the correct answer by more than 10%. Double check your calculations. N/C Î + (b) Find the vector force on the 5.00 nC charge. UN Î+ UN Ĵ N/Cĵ
- Two charges q1 = +4.35 µC and q2 = +6.25 µC are separated by a distance of 13.17 cm. Point P is located along the line segment joining the two charges. How far is P (in cm) from q1, if the magnitude of the electric field at P due to the two charges is equal to zero? Express your answers accurate to two decimal places.Three point charges are shown below. q1 = 4.57 μC, q2 = 2.30 μC, and q3 = -15.5 μC. d1 = 6.00 cm and d2 = 4.00 cm. What is the magnitude of the net electric force on q3 in Newtons? 1.00 μC = 1.00 × 10-6 C, 1.00 cm = 1.00 × 10-2 m. Use K = 9.00 × 109 N·m2/C2. Your answer needs to have 3 significant figures, including the negative sign in your answer if needed. Do not include the positive sign if the answer is positive. No unit is needed in your answer, it is already given in the question statement.Four identical charged particles (g = +10.2 µC) are located on the corners of a rectangle as shown in the figure below. The dimensions of the rectangle are L = 65.4 cm and W = 15.1 cm. W L b. (a) Calculate the magnitude of the total electric force exerted on the charge at the lower left corner by the other three charges. 44 Your response is within 10% of the correct value. This may be due to roundoff error, or you could have a mistake in your calculation. Carry out all intermediate results to at least four-digit accuracy to minimize roundoff error. N