A ferromagnetic core with a depth of 5 cm and relative permeability of 1550 is shown in Figure 1. The air gap on the right side of the core is 0.67 cm with effective area 8 % larger than its physical...

A ferromagnetic core with a depth of 5 cm and relative permeability of 1550 is shown in Figure<br>1. The air gap on the right side of the core is 0.67 cm with effective area 8 % larger than its<br>physical size due to fringing effects. Given current i<br>12A<br>a. Find the total flux produced by this core.<br>b. Find the flux on the right side of the core.<br>Find the flux density of the air gap.<br>с.<br>3.5 cm<br>3 cm<br>3.5 cm<br>13 cm<br>10 cm<br>3.5 cm<br>500 turns<br>Air gap<br>15 cm<br>3.5 cm<br>Figure 1<br>

Extracted text: A ferromagnetic core with a depth of 5 cm and relative permeability of 1550 is shown in Figure 1. The air gap on the right side of the core is 0.67 cm with effective area 8 % larger than its physical size due to fringing effects. Given current i 12A a. Find the total flux produced by this core. b. Find the flux on the right side of the core. Find the flux density of the air gap. с. 3.5 cm 3 cm 3.5 cm 13 cm 10 cm 3.5 cm 500 turns Air gap 15 cm 3.5 cm Figure 1

Jun 11, 2022

SOLUTION.PDF

A ferromagnetic core with a depth of 5 cm and relative permeability of 1550 is shown in Figure 1. The air gap on the right side of the core is 0.67 cm with effective area 8 % larger than its physical...

Get Answer To This Question

Related Questions & Answers

Submit New Assignment