i. Suppose 8.5x10-19 J of work is done to bring the nucleus of an atom from some infinite distance away to a particular location near a fixed positive charge. What would the electric potential energy of the nucleus be? (a) 3.4x10-18 J (b) 1.7x10-18 J -19 (c) 8.5x10- J -19 (d) 4.3x10- J (e) None of the above. ii. The nucleus is released an returns to the very far original position. Considering the kinetic energy of the nucleus and a mass of 6.6x10-27 kg, which is closest to the velocity of the nucleus? (a) 1.2x10-⁹ m/s (b) 1600 m/s (c) 11000 m/s (d) 2.5x108 m/s (e) None of the above.

1. Suppose 8.5x10−19 J of work is done to bring the nucleus of an atom from some infinite distance away to a particular location near a fixed positive charge. What would the electric potential energy of the nucleus be?

   (a) 3.4x10−18 J (b) 1.7x10−18 J (c) 8.5x10−19 J (d) 4.3x10−19 J

   (e) None of the above.
   ii. The nucleus is released an returns to the very far original position. Considering the kinetic energy

   of the nucleus and a mass of 6.6x10−27 kg, which is closest to the velocity of the nucleus?

   (a) 1.2x10−9 m/s (b) 1600 m/s

   (c) 11000 m/s (d) 2.5x108 m/s

   (e) None of the above.

Transcribed Image Text:

i. Suppose 8.5x10-19 J of work is done to bring the nucleus of an atom from some infinite distance away to a particular location near a fixed positive charge. What would the electric potential energy of the nucleus be? (a) 3.4x10-18 J (b) 1.7x10-18 J (c) 8.5x10-19 J (d) 4.3x10-19 J (e) None of the above. ii. The nucleus is released an returns to the very far original position. Considering the kinetic energy of the nucleus and a mass of 6.6x10-27 kg, which is closest to the velocity of the nucleus? (a) 1.2x10-9 m/s (b) 1600 m/s (c) 11000 m/s (d) 2.5x108 m/s (e) None of the above.