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Unformatted text preview: Felder, Jacob – Homework 5 – Due: Oct 10 2006, noon – Inst: Vitaly 1 This printout should have 15 questions. Multiplechoice questions may continue on the next column or page – find all choices before answering. The due time is Central time. 001 (part 1 of 1) 10 points The electron volt is a measure of 1. energy. correct 2. charge. 3. impulse. 4. momentum. 5. velocity. Explanation: Electron volt (eV) is a unit commonly used in atomic and nuclear physics. It is defined as the energy that an electron gains or loses by moving through a potential of 1 V. keywords: 002 (part 1 of 1) 10 points Two charges, 2 Q and + Q , are located on the xaxis, as shown below. Point P , at a distance of 3 D from the origin O , is one of two points on the positive xaxis at which the electric potential is zero. x 2 Q + Q P D D D How far d from the origin O is the other point? 1. d = 5 4 D 2. d = 4 3 D 3. d = 6 5 D 4. d = 7 5 D 5. d = 9 5 D 6. d = 3 2 D 7. d = 8 5 D 8. d = 5 3 D correct 9. d = 7 4 D 10. None of these Explanation: Suppose the zeropotential point is at a distance d from O. The electric potentials are 2 Q 4 π ²  D d  and Q 4 π ²  2 D d  , respectively. For zero electric potential 2 Q 4 π ²  D d  + Q 4 π ²  2 D d  = 0 , 2  D d  = 1  2 D d  , which gives d = 5 3 D or d = 3 D . keywords: 003 (part 1 of 1) 10 points A dipole field pattern is shown in the figure. Consider various relationships between the electric potential at different points given in the figure. P H R N D + Felder, Jacob – Homework 5 – Due: Oct 10 2006, noon – Inst: Vitaly 2 Notice: Five potential relationships are given below. a) V H = V N > V R b) V H = V N = V R c) V H = V N < V R d) V P < V R < V D e) V P > V R > V D Which relations shown above are correct? 1. ( b ) and ( d ) only correct 2. ( a ) and ( e ) only 3. ( c ) only 4. ( a ) only 5. ( a ) and ( d ) only 6. ( b ) and ( e ) only 7. ( e ) only 8. ( c ) and ( e ) only 9. ( c ) and ( d ) only 10. ( d ) only Explanation: The electric potential due to one single point charge at a distance r from the charge is given by V = k q r . For a dipole system, the total potential at any place is the sum of potentials due to one positive point charge and one negative point charge (Superposition Principle). From symmetry considerations, it is easy to see that the electric field lines are perpen dicular to a line which passes through the midpoint R and points H and N ....
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 Fall '08
 Opyrchal
 Electron, Energy, Potential Energy, Work, Electric charge, Felder

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