Three point charges are arranged as shown in the figure below. Find the magnitude and direction of the electric force on the particle q = 5.30 nC at the origin. (Let r,, = 0.230 m.) magnitude direction counterclockwise from the +x axis 6.00 nC 0.100 m -3.00 nC
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- Three point charges are arranged as shown in the figure below. Find the magnitude and direction of the electric force on the particle q = 4.92 nC at the origin. (Let r,2 = 0.225 m.) 6.576e-6 Use Coulomb's law to find the force that each charge exerts on the charge at the origin and combine the forces to magnitude find the net force. N direction ° counterclockwise from the +x axis y 6.00 nC 0.100 m -3.00 nC |Three 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/CĵAt location C there is an electric field in the direction indicated, due to charges not shown. E C A chloride ion (CI) is placed at location C. What is the direction of the electric force on the chloride ion? A B D C E: zero magnitude
- When point charges q1 = +8.7 μC and q2 = +6.8 μC are brought near each other, each experiences a repulsive force of magnitude 0.57 N. Determine the distance between the charges. Number i eTextbook and Media Units +Two point charges q and q2 are held 4.00 cm apart. An electron released at a point that is equidistant from both charges (see (Figure 1)) undergoes an initial acceleration of 8.80 x 10¹8 m/s² directly upward in the figure, parallel to the line connecting qi and q Figure 3.00 cm 91 4.00 cm 92 1 of 1 > Part A Find the magnitude and sign of q Express your answer in coulombs. 15. ΑΣΦΑ 91 Submit Part B Request Answer Ć Find the magnitude and sign of q Express your answer in coulombs. 195| ΑΣΦ t ? CProtons are projected with an initial speed v. = 9,950 m/s into a region where a uniform electric field of magnitude E = 540 N/C is present (see figure below). The protons are to hit a target that lies a horizontal distance of %3D 1.30 mm from the point where the protons are launched. Target -R Proton beam (a) Find the two projection angles 0 that will result in a hit. (Enter the smaller angle first.) 02 = (b) Find the total duration of flight for each of the two trajectories. (Enter the smaller duration of flight first.) t = t2 = %3D IL || I|||
- Three-point charges are arranged as shown in the figure below. Find the magnitude and direction of the electric force on the particle q = 5.20 nC at the origin. (Let r12 = 0.260 m.) find magnitude and direction counterclockwise from the +x axisThree 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.) %3D В 0.500 m 60.0° + A C magnitude N direction ° below the +x-axisThree point charges are arranged as shown in the figure below. Find the magnitude and direction of the electric force on the particle q = 4.90 nC at the origin. (Let r12 = 0.275 m.) magnitude N and direction ° counterclockwise from the +x axis
- In the figure, the point charges are located at the corners of an equilateral triangle 29 cm on a side. What is the direction of the force on qa in degrees above the negative x-axis with origin at qa?Three 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 N direction 9 0.100 m. -3.00 nC counterclockwise from the +x axis. 712 6.00 nCAs shown in the figure, three charges are at corners of a rectangle. The charge at the bottom right corner is Q = –90 nC. What is the direction of the net electrical force on Q due to the other two charges? Hint: Draw a good free body diagram for Q. Sketch the vector forces acting on it and sum their components in both directions.