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Questions A Y B C Do x+ B 91 D 92 • Elementary charge: 1.6 x 10-19 C 1 • k = 9.0 × 109 Nm² Απερ I y 2 Figure 1 Figure 2 Note: For questions on this page (which are worth 3 points each), make sure that you use the coordinate system shown in the diagrams to give the direction whenever appropriate! 1. In Figure 1 above, what is the direction of the electric field at point D if the charge at the origin is an electron? 2. In Figure 2 above, what is the direction of the electric field at the origin if q₁ is posi- tive and q2 is negative? 3. In Figure 2 above, what is the direction of the electric field at point B if q₁ is negative and q2 is negative? 4. In Figure 3 above, the lines indicate the direction of a uniform electric field. What is the direction of the force due to this field experienced by a positive charge q? 5. Consider calculating the electric field near a uniformly charged, thin plastic disc that had a radius of 10 cm and is lying flat on a table. Where above the table would the electric field due to the disc be vertical? Explain your thinking. T Z Figure 3 of boold Figure 4bolo 6. In Figure 4 above, the lines indicate the direction of a uniform electric field. What would happen to an electric dipole immediately after it is released in this field with its dipole moment aligned at an angle of 45° as shown in the diagram? 7. In a weird coincidence, a person driving a car sees lightning strike a tree next to the side of the road just as they drive by, and 10 seconds later another lightning strike hits another tree, again just as the they drive by that tree. Would another observer who also moved along a line parallel to the car but was moving at a speed of ẞ = 0.5 mea- sure the time between lightning strikes as 10s, more than 10 s, or less than 10s?