What information does a B-H curve provide for a magnetic material?

• A. The relationship between H and B, showing linear region, saturation, and hysteresis.
• B. The relationship between current and resistance.
• C. The relationship between energy and frequency.
• D. The relationship between capacitance and voltage.

Answer: (A)

The information a B-H curve provides is how magnetic flux density B responds to an applied magnetic field strength H in a material. In the initial, linear region, B increases roughly proportional to H, with the slope reflecting the material’s permeability. As H grows, the material approaches saturation, where most magnetic domains are aligned and B levels off, meaning further increases in H produce only small gains in B. If you cycle the magnetic field, the path of B does not retrace itself, forming a loop—the hysteresis loop. The area inside this loop corresponds to energy loss per cycle due to magnetic domain processes. So the curve tells you how easily the material magnetizes (permeability), the maximum flux density it can achieve (saturation), and how magnetization depends on the material’s history (hysteresis), along with related properties like remanence and coercivity. The other options describe relationships that aren’t about magnetic response to an applied field (current vs resistance, energy vs frequency, capacitance vs voltage).