# KSCIBSL Klinger Scientific Biot-Savart’s Law Experiment Set Up

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# Klinger Scientific Biot-Savart’s Law Experiment Set Up

The experiment consists of three parts; 1) investigating the effect of the applied current and the distance from the ring on the magnetic field, 2) investigating the same parameters for the solenoids instead of the rings, and 3) measuring the dependence of the magnetic field on number of loops in the solenoid.

OBJECTIVES

• Measuring the magnetic field of a straight conductor and of circular conductor loops as a function of the current.
• Measuring the magnetic field of a straight conductor as a function of the distance from the axis of the conductor.
• Measuring the magnetic field of circular conductor loops as a function of the loop radius and the distance from the loop.

PRINCIPLE
Electric currents generate magnetic fields. Biot–Savart law is an equation describing the magnetic field generated by a constant electric current. It relates the magnetic field to the magnitude, direction, length and proximity of the electric current. In this experiment, we study the magnetic field characteristics in straight conductor and different types of circular coils.

KEY FEATURES

• Multiple coil variants: The equipment comprises of variety of coil to carry out experiment. One can study Biot savart law for a straight conductor, coils of variable length, density and number of turns. All coils are mount on a common horizontal bench and upright system.
• 2-axis Teslameter: The equipment is provided with a teslameter with probes to measure both axial and tangential directions. A square shaft mount is provided for accurate mounting of the probes.

WHAT YOU NEED

• KSCIOB2 Optical Bench Set 0.4m 1
• KSCIHA015 Solenoid with Variable Turns 1
• KSCIHA016 Solenoid with Variable Lengths 1
• KSCIHA017 Solenoid with Different Winding Density (Set) 1
• KSCIHA018 Straight Conductor Holder 1
• KSCIPH93240 Teslameter, With Axial and Tangential Hall Probe 1
• KSCIPS61035D/5 Power Supply 1