To calculate the change of voltage according to magnetic field
To calculate the value of Hall constant for G and P semi conductor
To calculate the consistence of electrons and protons in semi conductive material
Categories: Electromagnetism Laboratory
If a magnetic field perpendicular to the current direction is applied to a semi-conductive material passing through it, the electric charges (free load carriers) moving in the magnetic field are concentrated in a certain region by the influence of the magnetic force. Due to the polarization that occurs as a result of this charge distribution, an electric field is formed between the two sides of the semiconductor. You will be experimenting the Hall Effect through mentioned parameters. Get ready to learn!
Build simple electrical circuits. Learn the usage of ammeter and voltmeter. Investigate parallel and series connected resistive circuits and capacitor
Study magnetic field along axis of current carrying circular loop by Biot-Savart law Find strength of the magnetic field at the centre of the current
Study magnetic field created by a current carrying solenoid, investigate the relationship between the current in a solenoid and magnetic field.
Start the experiment to learn about transformers and their features. Check your data and share it!