Use the following information to answer the next question Based on the above information, the magnetic force of deflection on the chlorine Use the following information to answer the next question ion will be towards: Current Carrying Coiled of Wire Two identical charges of -2.50 uC are placed 1.50 cm apart, as shown the left -2.50 MC the right E the bottom of the page 1.50 em 3.20 em the top of the page 20. An alpha particle, entering a uniform external magnetic field of 1.75 T, begins to move in a circular path of radius 0.0720 m. The magnitude of the electric field required to allow the alpha particle to pass straight through is: -2.50 MC 1.90 x 106 N/C 1.06 x 10 N/C 13. The strength of the net electric field, at point P, is 6.06 x 106 N/C 17. Select the direction of the magnetic field that is placed at positions a, b and c. 4.75 x 106 N/C 3.10 x 108 N/C Choose: 4.05 x 10' N/C Use the following information to answer the next two questions 1 - right 2.08 x 107 N/C 2 - up Chlorine lon 3 - left 4 - down 2.03 x 107 N/C Position b (in first box) Position a (in second box) 16. A small conducting sphere, with a charge of 4.25 nC, moves from a position in an electric field with an electrical potential of 15.0 V to a position with an electrical Position c (in third box) potential of 40.0 V. The energy gained by the sphere is: A chlorine ion projected perpendicularly into the plane of paper. Your answer: 1.06 x 10- J of kinetic energy A chlorine ion (CI) with a mass of 5.85 . 102 kg is projected with an energy of 8.50 keV 1.06 x 10- J of electric potential energy perpendicularly into a magnetic field with a strength of 0.650 T. 1.06 x 10 4 J of kinetic energy 1.06 x 10 4 J of electric potential energy 18. Based on the above information, the kinetic energy of the chlorine ion, in joules, is 1.36 x 10-15 J 8.50 x 103 J 1.36 x 10-18 J 8.50 J