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Chapter 16: Q17Q (page 443)

Consider the electric field at the three points indicated by the letters A, B, and C in Fig. 16–49. First draw an arrow at each point indicating the direction of the net force that a positive test charge would experience if placed at that point, then list the letters in order of decreasing field strength (strongest first). Explain.

Short Answer

Expert verified

The net electric force at points A and B is repulsive and at point C, it is zero. Electric field strength is the strongest at point A and weakest at point C such that letters in order of their decreasing field strength can be written as: \({\rm{A}} > {\rm{B}} > {\rm{C}}\)

Step by step solution

01

Understanding the electric field lines

The electric field line denotes a path that can be curved as well as straight along which a unit positive test charge would move if it is free to do so.

The tangent to the electric field line at any point gives the direction of the electric field at that point, whereas the density of electric field lines denotes the magnitude of the electric field.

02

Determination of the direction of net force at points A, B and C

If a positive test charge is placed at point A, then the force experienced by this test charge due to both the positive charges would be repulsive. Therefore, the direction of the net force experienced by the test charge would be away from the positive charge. Thus, the direction of net force would be pointed towards the left of the charge and parallel to its nearby electric field lines, as shown in the figure below:

If a positive test charge is placed at point B, then the force experienced by this test charge due to both the positive charges would be repulsive. Therefore, the direction of the net force experienced by this test charge would be pointed towards the right of the charge and parallel to its nearby electric field lines, as shown in the figure above.

If a positive test charge is placed at point C, then the force experienced by this test charge would be zero due to both the positive charges. This is because both the charges are placed equidistant from point C, and therefore the force experienced by the test charge would be equal and opposite. Thus, net force would be equal to zero.

03

Determination of the order of decreasing field strength

Since point A is much closer to the positive charge around which the density of electric field lines is much more as compared to point B. Thus the net electric field strength on point A would be much greater than at point B. However, the electric field strength at point C would be zero.

Thus, letters can be arranged in the order of their decreasing field strengths as:

\({\rm{A}} > {\rm{B}} > {\rm{C}}\)

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Most popular questions from this chapter

(II) The electric field midway between two equal but opposite point charges is\({\bf{386 N/C}}\)and the distance between the charges is 16.0 cm. What is the magnitude of the charge on each?

(I) A downward electric force of 6.4 N is exerted on a\( - {\bf{7}}{\bf{.3}}{\rm{ }}\mu {\bf{C}}\)charge. Find the magnitude and direction of the electric field at the position of this charge.

Swap the positions of \({Q_1}\) and \({Q_2}\) of Mis Conceptual Question 1. Which of the following is true of the force on \({Q_1}\) due to\({Q_2}\)?

(a) It does not change.

(b) It changes from attractive to repulsive.

(c) It changes from repulsive to attractive.

(d) It changes from \( + x\) the direction to the \( - x\) direction.

(e) It changes from the \( - x\) direction to the \( + x\) direction

Fred the lightning bug has a mass m and a charge \( + q\) Jane, his lightning-bug wife, has a mass of \(\frac{3}{4}m\) and a charge \( - 2q\). Because they have charges of opposite sign, they are attracted to each other. Which is attracted more to the other, and by how much?

(a) Fred, twice as much.

(b) Jane, twice as much.

(c) Fred, four times as much.

(d) Jane, four times as much.

(e) They are attracted to each other by the same amount.

Measurements indicate that there is an electric field surrounding the Earth. Its magnitude is about 150 N/C at the Earth’s surface and points inward toward the Earth’s center. What is the magnitude of the electric charge on the Earth? Is it positive or negative? (Hint: The electric field outside a uniformly charged sphere is the same as if all the charge were concentrated at its center.)
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