14 The r e shows a cross section of a 200 m long solid cylindrical conductor whose 26 cm. It carries a uniform curr...
121 14. The figure shows a cross section of a 200 m long solid cylindrical conductor whose radius is 26.8 cm. It carries a uniform current of 750 A. Using Ampere's Law, determine the magnetic field at a distance of 11.0 cm from the center. Hint: You need to calculate the current density to help you solve the problem. If you show your work in an organized, and clear manner that I can see that you are working the problem...
(12] 14. The figure shows a cross section of a 200 m long solid cylindrical conductor whose radius is 26.8 cm. It carries a uniform current of 500 A. Using Ampere's Law, determine the magnetic field at a distance of 9.00 cm from the center. Hint: You need to calculate the urrent density to help you solve the problem. If you show your work in an organized, and clear manner that I can see that you are working the problem...
SOO A 21 14. The figure shows a cross section of a 200 m long solid cylindrical conductor whose us is 26.8 cm. It carries a uniform current of 500 A. Using Ampere's Law, determine the magnetic field at a distance of 9.00 cm from the center. Hint: You need to calculate the current density to help you solve the problem. If you show your work in an organized, and clear manner that I can see that you are working...
please show neat work [12] 14. The figure shows a cross section of a 200 m long solid cylindrical conductor whose radius is 26.8 cm. It carries a uniform current of 750 A. Using Ampere's Law, determine the magnetic field at a distance of 11.0 cm from the center. Hint: You need to calculate the current density to help you solve the problem. If you show your work in an organized, and clear manner that I can see that you...
bis 26.8 a distancu solve €500 A [12] 14. The figure shows a cross section of a 200 m long solid cylindrical conductor whose radius is 26.8 cm. It carries a uniform current of 300 A. Using Ampere's Law, determine magnetic field at a distance of 15.0 cm from the center. Hint: You need to calculate the current density to help you solve the problem. If you show your work in an organized and clear manner that I can see...
Answer: Magnitude: Direction: 20 A [12] 15. The figure shows a cross section of a 25.0 m long solid cylindrical conductor whose radius is 35.4 cm. It carries a uniform current of 120 A. Using Ampere's Law, determine the magnetic field at a distance of 29.0 cm from the center. Hint: You need to calculate the current density to help you solve the problem. If you show your work in an organized, and clear manner that I can see that...
Answer: Magnitude: Direction: .....2120 A [12] 15. The figure shows a cross section of a 25.0 m long solid cylindrical conductor whose radius is 35.4 cm. It carries a uniform current of 120 A. Using Ampere's Law, determine the magnetic field at a distance of 29.0 cm from the center. Hint: You need to calculate the current density to help you solve the problem. If you show your work in an organized, and clear manner that I can see that...
help, write neate please 750 A 112] 14. The figure shows a cross section of a 200 m long solid cylindrical conduct radius is 26.8 cm. It carries a uniform current of 750 A. Using Am 200 m long solid cylindrical conductor whose Cartes a uniform current of 750 A llsing Ampere's Law. determine the magnetic field at a distance of 11.0 cm from the center. Hint: You need to calculat current density to help you solve the problem. If...
[10]23 The figure shows a cross section of a long solid cylindrical conductor whose radius is 253 mm. The conductor carries a uniform current of 364 A. Using Ampere's Law, determine the magnetic field at a distance of 7.04 mm from the center Answer: Direction (Magnitude) 36,4 A
The figure shows a cross section across the diameter of a long, solid, cylindrical conductor. The radius of the cylinder is R - 10.0 cm. A current i = 2.23 A is uniformly distributed through the conductor and is flowing out of the page. Calculate the direction and the magnitude of the magnetic field at positions = 0.0 cm, n = 4.00 cm, 7= 10.00 cm, and ra = 16.4 cm. For = 4.00 cm, B is 1.78 x 10T...