Electric charge can accumulate on an airplane in flight. You may have observed needle-shaped metal extensions...
Electric charge can accumulate on an airplane in flight. You may have observed needle-shaped metal extensions on the wing tips and tail of an airplane. Their purpose is to allow charge to leak off before much of it accumulates. The electric field around the needle is much larger than the field around the body of the airplane and can become large enough to produce dielectric breakdown of the air, discharging the airplane. To model this process, assume that two charged spherical conductors are connected by a long conducting wire and a charge of 62.0 µC is placed on the combination. One sphere, representing the body of the airplane, has a radius of 6.00 m, and the other, representing the tip of the needle, has a radius of 2.00 cm. (a) What is the electric potential of each sphere?
(a) What is the electric potential of each sphere?
| r = 6.00 m: | V |
| r = 2.00 cm: | V |
(b) What is the electric field at the surface of each sphere?
|
r = 6.00 m: |
magnitude | V/m |
| direction | ---Select--- away from the sphere toward the sphere or toward the sphere | |
|
r = 2.00 cm: |
magnitude | V/m |
| direction | ---Select--- away from the sphere toward the sphere or toward the sphere |
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Electric charge can accumulate on an airplane in flight. You may
have observed needle-shaped metal extensions...
Electric charge can accumulate on an airplane in flight. You may have observed needle-shaped metal extensions...
Electric charge can accumulate on an airplane in flight. You may have observed needle-shaped metal extensions on the wing tips and tail of an airplane. Their purpose is to allow charge to leak off before much of it accumulates. The electric field around the needle is much larger than the field around the body of the airplane and can become large enough to produce dielectric breakdown of the air, discharging the airplane. To model this process, assume that two charged...
Electric charge can accumulate on an airplane in flight. You may have observed needle-shaped metal extensions...
Electric charge can accumulate on an airplane in flight. You may have observed needle-shaped metal extensions on the wing tips and tail of an airplane. Their purpose is to allow charge to leak off before much of it accumulates. The electric field around the needle is much larger than the field around the body of the airplane and, can become large enough to produce dielectric breakdown of the air, discharging the airplane. To model this process, assume that two charged...
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Immediately outside a conducting sphere of unknown charge sphere, the potential is 140 V. and radius R the electric potential is 190 V, and 10.0 cm further from the (a) Determine the radius R of the sphere (in cm) 28 (b) Determine the charge on the sphere (in nC). c) The electric potential immediately outside another charged conducting sphere is 200 V and 10.0 cm farther from the center the magnitude of the electric field is 420 V/m. Determine the...
3. A solid, ideally conduct s. A solid, tealy oonduscting metal sphene with a radius of 100 em carries a net charge of -50 o s the electric neld (magnitiunde a direction) and electric poteatisal at a location 20.0 cm aw ay from the center of the sphere? B. 5.54 10 N/C 7.7110 NIC D) 1.12 1o' N/C 9.97 10*N/C Va A. toward center of sphere from center of sphere 0-2 A:)2.25 kv 3.37 kV C. 4.49 kVv D. 5.56...
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