Summary

The YGP-6235 Ampere force experimental device uses a high-precision four-scale balance (resolution 0.01g) to measure the Ampere force generated by a current-carrying wire in a magnetic field. The Ampere force is the force exerted on a current-carrying wire in a magnetic field, which can be expressed as follows: a straight wire with a length of L and a current intensity of I is placed in a uniform external magnetic field with a magnetic induction intensity of B. The magnitude of the Ampere force exerted on the wire is F= IL x B, and the directions of I, B and F are determined by the left-hand rule. This experimental device uses conductors of different lengths to measure the effect of length on the Ampere force, uses magnetic fields of different intensities to measure the relationship between magnetic field intensity and Ampere force, and changes the current of the wire to measure the relationship between the Ampere force and the current.

Experiments

• Understand the concept and principle of Ampere force

• Measure the relationship between Ampere force and current

• Measure the relationship between Ampere force and wire length

• Measure the relationship between Ampere force and magnetic field strength

Features

• Using a high-precision four-scale balance.

• Configure two magnetic fields of different strengths.

• Three different lengths of wire samples were used.

• Adopt high stability test stand.

Typical Data