Draw and label a vector diagram for the electric field at point A (make sure you have an arrow for each of the other charges, even any that cancel). Calculate the magnitude and angle of the net electric field at A. [1.22x109N/C, 60.6° (be sure to include, angle from what?]
Draw and label a vector diagram for the electric field at point A (make sure you...
Draw and label a force diagram of the forces on q4(make sure you have an arrow for eachof the other charges, even any that cancel) Find the net force (magnitude and angle) on q4. [5.42x104N, 8.7° (be sure to include, angle from what?)] 6 mm 0 4 mm 70% 30% 9 mm 44 mm 6 mm/ -8uC
7. Draw and label a force diagram for each of the three charges. Then calculate the net force (magnitude and direction) on each charge. [magnitudes are 1.42x106 N, 4.78x106 N, 3.36x106 N, don't forget directions] 9.5 cm 15.8cm-> . 91 42 1.3mC 93 -4.4mC 2.1mC 8. Draw and label a force diagram of the forces on q4 (make sure you have an arrow for each of the other charges, even any that cancel) Find the net force (magnitude and angle)...
Draw and label a vector diagram for the electric field at point A due to the point charges. Find the magnitude and direction of the net electric field at A. [magnitude is 6.99x103N/C, don’t forget direction]
draw and label each electric field vector acting on the bottom right corner (at the dot) in the diagram below. then solve for the magnitude and direction of the net electric field at this point 4. Draw and label each electric field vector acting on the bottom right corner (at the dot) in the diagram below. Then solve for the magnitude and direction of the net electric field at this point. qi 4.0 nC 3.0 cm 4.0 cm 3 2.0...
7. Draw a diagram of a proton and electron in a uniform electric field. Include electric field lines for the external electric field and velocity vectors for both charges (the length of the velocity vector should imply magnitude of velocity
e) Find the electric Field vector at point (0, +a) (Calculate the magnitude, and draw the vector.) f Sketch the electric field lines. g) Find the electric Field at (x, 0) for「a. h) Find out the location (x, y) where the electric Field E becomes zero. (Hint: Use the solution of e).) +4Q -Q
e) Find the electric Field vector at point (0, +a) (Calculate the magnitude, and draw the vector.) f Sketch the electric field lines. g) Find the electric Field at (x, 0) for「a. h) Find out the location (x, y) where the electric Field E becomes zero. (Hint: Use the solution of e).) +4Q -Q
1) Find the electric field vector E at point P= (0,-a). (Calculate the magnitude and draw the vector). 2) Sketch the electric field lines. 3)Find out the location (x,y) where the electric field E becomes 0. -Q (0, a) 2Q P (0, -a)
In the region shown in the diagram above there is an electric field due to a point charge located at the center of the magenta circle. The orange arrows indicate the magnitude and direction of the electric field at the locations shown. What is the sign of the source charge? ---Select--- zero positive negative not enough information Now a particle whose charge is -4e-09 C is placed at location C. Which arrow (a-j) best indicates the direction of the electric force...
a) Calculate the magnitude of the electric field at one corner of a square that has sides length a, if the other three corners each have a charge +2q. Be sure to start with a diagram of the charges with a coordinate system. b) What is the electric potential at that corner? c) Draw an electric field diagram for the system of charges. With a different color pen or pencil, draw in the equipotential lines. d) What is the force...