Determination of Hall voltage, and Hall coefficient in Hall effect set up
Controls
Combo box
Select procedure: This is used to select the part of the experiment to perform.- Magnetic field Vs Current.
- Hall effect setup.
Select Material: This slider activates only if Hall Effect setup is selected. And this is used to select the material for finding Hall coefficient and carrier concentration.
Button
Insert Probe/ Remove Probe: This button used to insert/remove the probe in between the solenoid.
Show Voltage/ Current: This will activate only if Hall Effect setup selected and it used to display the Hall voltage/ current in the digital meter.
Reset: This button is used to repeat the experiment.
Slider
Current: This slider used to vary the current flowing through the Solenoid.
Hall Current: This slider used to change the hall current
Thickness: This slider used to change the thickness of the material selected.
Procedure for doing the simulation:
To measure the magnetic field generated in the solenoid- Select Magnetic field Vs Current from the procedure combo-box.
- Click Insert Probe button
- Placing the probe in between the solenoid by clicking the wooden stand in the simulator.
- Using Current slider, varying the current through the solenoid and corresponding magnetic field is to be noted from Gauss meter.
| Trial No. | Current Through Solenoid | Magnetic Field Generated |
|---|---|---|
| 1 | ||
| 2 | ||
| 3 |
Hall Effect apparatus
- Select Hall Effect Setup from the Select the procedure combo box
- Click Insert Hall Probe button
- Placing the probe in between the solenoid by clicking the wooden stand in the simulator.
- Set "current slider" value to minimum.
- Select the material from “Select Material” combo-box.
- Select the Thickness of the material using the slider Thickness.
- Vary the Hall current using the slider Hall current.
- Note down the corresponding Hall voltage by clicking “show voltage” button.
- Then calculate Hall coefficient and carrier concentration of that material using the equation.
Where RH is the Hall coefficient
And n is the carrier concentration
Repeat the experiment with different magnetic field:
| Trial No. | Magnetic Field (Tesla T) | Thickness (t) m | Hall Current (mA) | Hall Voltage, mW | RH |
|---|---|---|---|---|---|
| 1 | |||||
| 2 | |||||
| 3 |
Procedure for doing real lab
- Connect ‘Constant current source’ to the solenoids.
- Four probe is connected to the Gauss meter and placed at the middle of the two solenoids.
- Switch ON the Gauss meter and Constant current source.
- Vary the current through the solenoid from 1A to 5A with the interval of 0.5A, and note the corresponding Gauss meter readings.
- Switch OFF the Gauss meter and constant current source and turn the knob of constant current source towards minimum current.
- Fix the Hall probe on a wooden stand. Connect green wires to Constant Current Generator and connect red wires to milli voltmeter in the Hall Effect apparatus
- Replace the Four probes with Hall probe and place the sample material at the middle of the two solenoids.
- Switch ON the constant current source and CCG.
- Carefully increase the current I from CCG and measure the corresponding Hall voltage VH. Repeat this step for different magnetic field B.
- Thickness t of the sample is measured using screw gauge.
- Hence calculate the Hall coefficient RH using the equation 5.
- Then calculate the carrier concentration n. using equation 6.
Results
Hall coefficient of the material = _______________
Carrier Concentration of material = ______________ m-3