Question

The material more suitable for core of the electromagnet is

• A. Cu-Ni alloy
• B. nichrome
• C. soft iron
• D. steel

Answer 1

The Correct Option is C

Step 1: Understand the requirements for an electromagnet core.

An electromagnet works by generating a magnetic field when electric current flows through a coil wrapped around a core. The core material should have the following properties:

• High magnetic permeability: The material should easily magnetize and demagnetize to enhance the strength of the magnetic field.
• Low retentivity: The material should not retain magnetism after the current is turned off, ensuring the electromagnet can be switched on and off effectively.

Soft iron is an ideal material for this purpose because it has high magnetic permeability and low retentivity, making it easy to magnetize and demagnetize.

Step 2: Analyze the options.

• (1) Cu-Ni alloy: Copper-nickel alloys are non-magnetic and are not suitable for use as an electromagnet core.
• (2) Nichrome: Nichrome is an alloy primarily used for its resistance to heat and corrosion. It is not magnetic and is unsuitable for an electromagnet core.
• (3) Soft iron: Soft iron is highly magnetic, has high permeability, and low retentivity, making it the most suitable material for an electromagnet core.
• (4) Steel: Steel has high retentivity, meaning it retains magnetism even after the current is turned off. This makes it less suitable for an electromagnet, as it cannot be easily demagnetized.

Final Answer: The most suitable material for the core of an electromagnet is \( \mathbf{\text{soft iron}} \), which corresponds to option \( \mathbf{(3)} \).