Problem 1: A charge Q = -600nC is evenly distributed in a ring with radius of r = 1.4m. Another charg q= -530nC is placed on the axis of the ring, at a distance d2 from the center of the ring. The points A & I are along the axis of the center of the ring as is shown in the next figure, meanwhile A is placed exactly at the center of the ring. • a) Calculate the work in Joules, that a proton has to perform in order to travel from A to B? Consider tha di = 3m y d2 = 1.2m. • b) Which is the velocity of the proton at the point A if it starts from zero (point B)? • c) What if instead of a proton we have an electron? How does this affect the last 2 questions a) & b). B ip-

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Problem 1: A charge Q = -600nC is evenly distributed in a ring with radius of r = 1.4m. Another charge
9 = -530nC is placed on the axis of the ring, at a distance d2 from the center of the ring. The points A & B
are along the axis of the center of the ring as is shown in the next figure, meanwhile A is placed exactly at the
center of the ring.
• a) Calculate the work in Joules, that a proton has to perform in order to travel from A to B? Consider that
di = 3m y d2 = 1.2m.
b) Which is the velocity of the proton at the point A if it starts from zero (point B)?
• c) What if instead of a proton we have an electron? How does this affect the last 2 questions a) & b).
Transcribed Image Text:Problem 1: A charge Q = -600nC is evenly distributed in a ring with radius of r = 1.4m. Another charge 9 = -530nC is placed on the axis of the ring, at a distance d2 from the center of the ring. The points A & B are along the axis of the center of the ring as is shown in the next figure, meanwhile A is placed exactly at the center of the ring. • a) Calculate the work in Joules, that a proton has to perform in order to travel from A to B? Consider that di = 3m y d2 = 1.2m. b) Which is the velocity of the proton at the point A if it starts from zero (point B)? • c) What if instead of a proton we have an electron? How does this affect the last 2 questions a) & b).
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