For all calculations use actual measured distances to the nearest tenth of a centimeter. Assume the magnitude of each charge of a dipole arrangement to be 1.00 nC. Draw a dipole such that a positive and negative charge are separated by 10 cm with the positive charge on the left. Arrange your paper landscape style (horizontally). ● 1) In pencil, draw eight electric field lines from the positive to the negative charge. The lines should be symmetric about each charge. Use a ruler to maximize the symmetry and don't forget to include arrows. 2) Label the midpoint between the two charges as point A. Calculate the electric field at point A. Show your work in the space below. 2 x 1 x 9×10° 0'1 Answer: 7.2 x 10" i (magnitude and direction) 3) Label a point 2.0 cm to the left of point A as point B. Calculate the electric field at point B. Show your work in the space below. (9x109) (1) 0.072 (ax 10²) (1 + 0·072 4) Label a point 2.0 cm to the right of point A as point C. From symmetry, determine the electric field at C. + ! (9x10²) (1) 0.03² 0.03² 13 Answer: 1.1836 7347 x 10 (magnitude and direction) same
For all calculations use actual measured distances to the nearest tenth of a centimeter. Assume the magnitude of each charge of a dipole arrangement to be 1.00 nC. Draw a dipole such that a positive and negative charge are separated by 10 cm with the positive charge on the left. Arrange your paper landscape style (horizontally). ● 1) In pencil, draw eight electric field lines from the positive to the negative charge. The lines should be symmetric about each charge. Use a ruler to maximize the symmetry and don't forget to include arrows. 2) Label the midpoint between the two charges as point A. Calculate the electric field at point A. Show your work in the space below. 2 x 1 x 9×10° 0'1 Answer: 7.2 x 10" i (magnitude and direction) 3) Label a point 2.0 cm to the left of point A as point B. Calculate the electric field at point B. Show your work in the space below. (9x109) (1) 0.072 (ax 10²) (1 + 0·072 4) Label a point 2.0 cm to the right of point A as point C. From symmetry, determine the electric field at C. + ! (9x10²) (1) 0.03² 0.03² 13 Answer: 1.1836 7347 x 10 (magnitude and direction) same
Chapter5: Electric Charges And Fields
Section: Chapter Questions
Problem 101P: In this exercise, you practice electric field lines. Make sure you represent both the magnitude and...
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Question
![For all calculations use actual measured distances to the nearest tenth of a centimeter.
Assume the magnitude of each charge of a dipole arrangement to be 1.00 nC.
Draw a dipole such that a positive and negative charge are separated by 10 cm with
the positive charge on the left.
Arrange your paper landscape style (horizontally).
1) In pencil, draw eight electric field lines from the positive to the negative charge. The lines
should be symmetric about each charge. Use a ruler to maximize the symmetry and don't
forget to include arrows.
2) Label the midpoint between the two charges as point A. Calculate the electric field at point
A. Show your work in the space below.
2 x 1 x 9×10°
Answer: 7.2 x 10" i
(magnitude and direction)
3) Label a point 2.0 cm to the left of point A as point B. Calculate the electric field at point B.
Show your work in the space below.
(9x109) (1)
0.072
(ax 109) 1
0.072
+
4) Label a point 2.0 cm to the right of point A as point C. From symmetry, determine the
electric field at C.
+
(ax10²) (1)
0.03²
0.03²
13
Answer: 1.18367347 x 10"
(magnitude and direction)
same](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F86a7286a-c708-4c2a-8819-2164b0bf1c63%2F446c491b-d632-42dc-91d3-81611e42e18f%2F59utk0b_processed.jpeg&w=3840&q=75)
Transcribed Image Text:For all calculations use actual measured distances to the nearest tenth of a centimeter.
Assume the magnitude of each charge of a dipole arrangement to be 1.00 nC.
Draw a dipole such that a positive and negative charge are separated by 10 cm with
the positive charge on the left.
Arrange your paper landscape style (horizontally).
1) In pencil, draw eight electric field lines from the positive to the negative charge. The lines
should be symmetric about each charge. Use a ruler to maximize the symmetry and don't
forget to include arrows.
2) Label the midpoint between the two charges as point A. Calculate the electric field at point
A. Show your work in the space below.
2 x 1 x 9×10°
Answer: 7.2 x 10" i
(magnitude and direction)
3) Label a point 2.0 cm to the left of point A as point B. Calculate the electric field at point B.
Show your work in the space below.
(9x109) (1)
0.072
(ax 109) 1
0.072
+
4) Label a point 2.0 cm to the right of point A as point C. From symmetry, determine the
electric field at C.
+
(ax10²) (1)
0.03²
0.03²
13
Answer: 1.18367347 x 10"
(magnitude and direction)
same
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