(a) Explanation Given: The radius of a uniformly charged ring is a . The charge of the ring is − Q . Mass of the particle is m . The charge of the small particle is q . Formula used: Write the expression of force on a particle due to gravitation. F a = m g Here, F a is the force due to gravitation, m is the mass of the particle and g is the acceleration due to gravity. Write the expression for force due to an electric field. F e = q E z Here, F e is the force due to the electric field, q is the charge of the particle and E z is the electric field along z -axis. Write the expression for the condition of equilibrium of force. ∑ F = 0 F e + F a = 0 …… (1) Write the expression of the electric field at any point due to a charged ring. E z = k Q z ( z 2 + a 2 ) 3 2 …… (2) Here, E z is the electric field along z -axis, k is Coulomb’s constant, Q is the total charge, a is the radius of the ring, z is the distance of any point on the z -axis. Calculation: Substitute m g for F a and q E z for equation (1). q E z − m g = 0 Rearrange the above equation. q m = g E z …… (3) Differentiate equation (2) with respect to z . d E z d z = k Q [ 1 ( z 2 + a 2 ) 3 2 − 3 z 2 ( z 2 + a 2 ) 5 2 ] Substitute 0 for d E z d z in the above equation for the maximum value of the electric field (b) To determine The equilibrium position of the particle.

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One of the fundamental properties is the electromagnetic property. Charge cannot be destroyed by any process and this contributes formally to the law of charge conservation.

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Chapter 22, Problem 74P

(a)

To determine

The minimum value of q/m .

(b)

To determine

The equilibrium position of the particle.

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Chapter 22, Problem 73P

Chapter 22, Problem 75P

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Assume that a honeybee is a sphere of diameter 1.000 cm with a charge of 45.0 pC uniformly spread over its surface. Assume also that a spherical pollen grain of diameter 40.0 mm is electrically held on the surface of the bee because the bee’s charge induces a charge of -1.00 pC on the near side of the grain and a charge of +1.00 pC on the far side. (a) What is the magnitude of the net electrostatic force on the grain due to the bee? Next, assume that the bee brings the grain to a distance of 1.000 mm from the tip of a flower’s stigma and that the tip is a particle of charge -45.0 pC. (b) What is the magnitude of the net electrostatic force on the grain due to the stigma? (c) Does the grain remain on the bee or does it move to the stigma?

There are four charges, each with a magnitude of 2.0 mC. Two are positive and two are negative. The charges are fi xed to the corners of a 0.30-m square, one to a corner, in such a way that the net force on any charge is directed toward the center of the square. Find the magnitude of the net electrostatic force experienced by any charge.

Chapter 22 Solutions

EBK PHYSICS FOR SCIENTISTS AND ENGINEER

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