Hall Voltage Calculator

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Electrostatic Parameters

Charge Carrier Characteristics

Diode Characteristics

Semiconductor Characteristics

Transistor Operating Parameters

✖Magnetic Field Strength is a measure of the intensity of a magnetic field in a given area of that field.ⓘ Magnetic Field Strength [H]			+10% -10%
✖Electric Current is the time rate of flow of charge through a cross sectional area.ⓘ Electric Current [I]			+10% -10%
✖Hall Coefficient is defined as the ratio of the induced electric field to the product of the current density and the applied magnetic field.ⓘ Hall Coefficient [RH]			+10% -10%
✖Width of semiconductor determine the width of semiconductor.ⓘ Width of Semiconductor [W]			+10% -10%

✖Hall voltage states that if a metal or a semiconductor carrying a current I which is placed in transverse magnetic field B, an electric field is induced in a direction perpendicular to both I and B.ⓘ Hall Voltage [V_h]

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Formula

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Hall Voltage

Formula

`"V"_{"h"} = (("H"*"I")/("RH"*"W"))`

Example

`"0.851852V"=(("0.23A/m"*"2.2A")/("6"*"99mm"))`

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Hall Voltage Solution

STEP 0: Pre-Calculation Summary

Formula Used

Hall Voltage = ((Magnetic Field Strength*Electric Current)/(Hall Coefficient*Width of Semiconductor))
V_h = ((H*I)/(RH*W))
This formula uses 5 Variables

Variables Used

Hall Voltage - (Measured in Volt) - Hall voltage states that if a metal or a semiconductor carrying a current I which is placed in transverse magnetic field B, an electric field is induced in a direction perpendicular to both I and B.
Magnetic Field Strength - (Measured in Ampere per Meter) - Magnetic Field Strength is a measure of the intensity of a magnetic field in a given area of that field.
Electric Current - (Measured in Ampere) - Electric Current is the time rate of flow of charge through a cross sectional area.
Hall Coefficient - Hall Coefficient is defined as the ratio of the induced electric field to the product of the current density and the applied magnetic field.
Width of Semiconductor - (Measured in Meter) - Width of semiconductor determine the width of semiconductor.

STEP 1: Convert Input(s) to Base Unit

Magnetic Field Strength: 0.23 Ampere per Meter --> 0.23 Ampere per Meter No Conversion Required
Electric Current: 2.2 Ampere --> 2.2 Ampere No Conversion Required
Hall Coefficient: 6 --> No Conversion Required
Width of Semiconductor: 99 Millimeter --> 0.099 Meter (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

V_h = ((H*I)/(RH*W)) --> ((0.23*2.2)/(6*0.099))

Evaluating ... ...

V_h = 0.851851851851852

STEP 3: Convert Result to Output's Unit

0.851851851851852 Volt --> No Conversion Required

FINAL ANSWER

0.851851851851852 ≈ 0.851852 Volt <-- Hall Voltage

(Calculation completed in 00.020 seconds)

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Credits

Created by Tejasvini Thakral

Dr. BR Ambedkar National Institute Of Technology (NITJ), Bareilly

Tejasvini Thakral has created this Calculator and 3 more calculators!

Verified by Rachita C

BMS College Of Engineering (BMSCE), Banglore

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< 14 Electrostatic Parameters Calculators

Magnetic Deflection Sensitivity

Go Magnetic Deflection Sensitivity = (Length of Deflecting Plates*Cathode Ray Tube Length)*sqrt(([Charge-e]/(2*[Mass-e]*Anode Voltage)))

Electrostatic Deflection Sensitivity

Go Electrostatic Deflection Sensitivity = (Length of Deflecting Plates*Cathode Ray Tube Length)/(2*Distance between Deflecting Plates*Anode Voltage)

Hall Voltage

Go Hall Voltage = ((Magnetic Field Strength*Electric Current)/(Hall Coefficient*Width of Semiconductor))

Radius of Electron on Circular Path

Go Radius of Electron = ([Mass-e]*Electron Velocity)/(Magnetic Field Strength*[Charge-e])

Electric Flux

Go Electric Flux = Electric Field Intensity*Area of Surface*cos(Angle)

Transition Capacitance

Go Transition Capacitance = ([Permitivity-vacuum]*Junction Plate Area)/Width of Depletion Region

Angular Speed of Particle in Magnetic Field

Go Angular Speed of Particle = (Particle Charge*Magnetic Field Strength)/Particle Mass

Angular Speed of Electron in Magnetic Field

Go Angular Speed of Electron = ([Charge-e]*Magnetic Field Strength)/[Mass-e]

Particle Acceleration

Go Particle Acceleration = ([Charge-e]*Electric Field Intensity)/[Mass-e]

Magnetic Field Intensity

Go Magnetic Field Strength = Length of Wire/(2*pi*Distance from Wire)

Path Length of Particle in Cycloidal Plane

Go Particle Cycloidal Path = Velocity of Electron in Force Fields/Angular Speed of Electron

Electric Field Intensity

Go Electric Field Intensity = Electric Force/Electric Charge

Electric Flux Density

Go Electric Flux Density = Electric Flux/Surface Area

Diameter of Cycloid

Go Diameter of Cycloid = 2*Particle Cycloidal Path

Hall Voltage Formula

Hall Voltage = ((Magnetic Field Strength*Electric Current)/(Hall Coefficient*Width of Semiconductor))
V_h = ((H*I)/(RH*W))

What is the use of hall voltage?

Hall effect is utilized in determining whether a given material is metal, n type semiconductor, p type semiconductor.

How to Calculate Hall Voltage?

Hall Voltage calculator uses Hall Voltage = ((Magnetic Field Strength*Electric Current)/(Hall Coefficient*Width of Semiconductor)) to calculate the Hall Voltage, Hall voltage states that if a metal or a semiconductor carrying a current I is placed in transverse magnetic field B an electric field is induced in a direction perpendicular to both I and B. Hall Voltage is denoted by V_h symbol.

How to calculate Hall Voltage using this online calculator? To use this online calculator for Hall Voltage, enter Magnetic Field Strength (H), Electric Current (I), Hall Coefficient (RH) & Width of Semiconductor (W) and hit the calculate button. Here is how the Hall Voltage calculation can be explained with given input values -> 0.851852 = ((0.23*2.2)/(6*0.099)).

FAQ

What is Hall Voltage?

Hall voltage states that if a metal or a semiconductor carrying a current I is placed in transverse magnetic field B an electric field is induced in a direction perpendicular to both I and B and is represented as V_h = ((H*I)/(RH*W)) or Hall Voltage = ((Magnetic Field Strength*Electric Current)/(Hall Coefficient*Width of Semiconductor)). Magnetic Field Strength is a measure of the intensity of a magnetic field in a given area of that field, Electric Current is the time rate of flow of charge through a cross sectional area, Hall Coefficient is defined as the ratio of the induced electric field to the product of the current density and the applied magnetic field & Width of semiconductor determine the width of semiconductor.

How to calculate Hall Voltage?

Hall voltage states that if a metal or a semiconductor carrying a current I is placed in transverse magnetic field B an electric field is induced in a direction perpendicular to both I and B is calculated using Hall Voltage = ((Magnetic Field Strength*Electric Current)/(Hall Coefficient*Width of Semiconductor)). To calculate Hall Voltage, you need Magnetic Field Strength (H), Electric Current (I), Hall Coefficient (RH) & Width of Semiconductor (W). With our tool, you need to enter the respective value for Magnetic Field Strength, Electric Current, Hall Coefficient & Width of Semiconductor and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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