Time Period of Electron Solution

STEP 0: Pre-Calculation Summary
Formula Used
Period of Particle Circular Path = (2*3.14*[Mass-e])/(Magnetic Field Strength*[Charge-e])
tc = (2*3.14*[Mass-e])/(H*[Charge-e])
This formula uses 2 Constants, 2 Variables
Constants Used
[Charge-e] - Charge of electron Value Taken As 1.60217662E-19
[Mass-e] - Mass of electron Value Taken As 9.10938356E-31
Variables Used
Period of Particle Circular Path - (Measured in Second) - Period of Particle Circular Path is the time taken for the charged particle to go around a circular path.
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.
STEP 1: Convert Input(s) to Base Unit
Magnetic Field Strength: 0.23 Ampere per Meter --> 0.23 Ampere per Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
tc = (2*3.14*[Mass-e])/(H*[Charge-e]) --> (2*3.14*[Mass-e])/(0.23*[Charge-e])
Evaluating ... ...
tc = 1.55242420903307E-10
STEP 3: Convert Result to Output's Unit
1.55242420903307E-10 Second -->0.155242420903307 Nanosecond (Check conversion here)
FINAL ANSWER
0.155242420903307 0.155242 Nanosecond <-- Period of Particle Circular Path
(Calculation completed in 00.004 seconds)

Credits

Created by Akshada Kulkarni
National Institute of Information Technology (NIIT), Neemrana
Akshada Kulkarni has created this Calculator and 500+ more calculators!
Verified by Team Softusvista
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16 Charge Carrier Characteristics Calculators

Intrinsic Concentration
Go Intrinsic Carrier Concentration = sqrt(Effective Density in Valence Band*Effective Density in Conduction Band)*e^((-Temperature Dependence of Energy Band Gap)/(2*[BoltZ]*Temperature))
Electrostatic Deflection Sensitivity of CRT
Go Electrostatic Deflection Sensitivity = (Distance between Deflecting Plates*Screen and Deflecting Plates Distance)/(2*Deflection of Beam*Electron Velocity)
Current Density due to Electrons
Go Electron Current Density = [Charge-e]*Electron Concentration*Mobility of Electron*Electric Field Intensity
Current Density due to Holes
Go Holes Current Density = [Charge-e]*Holes Concentration*Mobility of Holes*Electric Field Intensity
Electrons Diffusion Constant
Go Electron Diffusion Constant = Mobility of Electron*(([BoltZ]*Temperature)/[Charge-e])
Holes Diffusion Constant
Go Holes Diffusion Constant = Mobility of Holes*(([BoltZ]*Temperature)/[Charge-e])
Intrinsic Carrier Concentration under Non-Equilibrium Conditions
Go Intrinsic Carrier Concentration = sqrt(Majority Carrier Concentration*Minority Carrier Concentration)
Force on Current Element in Magnetic Field
Go Force = Current Element*Magnetic Flux Density*sin(Angle between Planes)
Velocity of Electron
Go Velocity due to Voltage = sqrt((2*[Charge-e]*Voltage)/[Mass-e])
Time Period of Electron
Go Period of Particle Circular Path = (2*3.14*[Mass-e])/(Magnetic Field Strength*[Charge-e])
Hole Diffusion Length
Go Holes Diffusion Length = sqrt(Holes Diffusion Constant*Hole Carrier Lifetime)
Conductivity in Metals
Go Conductivity = Electron Concentration*[Charge-e]*Mobility of Electron
Velocity of Electron in Force Fields
Go Velocity of Electron in Force Fields = Electric Field Intensity/Magnetic Field Strength
Thermal Voltage
Go Thermal Voltage = [BoltZ]*Temperature/[Charge-e]
Thermal Voltage using Einstein's Equation
Go Thermal Voltage = Electron Diffusion Constant/Mobility of Electron
Convection Current Density
Go Convection Current Density = Charge Density*Charge Velocity

Time Period of Electron Formula

Period of Particle Circular Path = (2*3.14*[Mass-e])/(Magnetic Field Strength*[Charge-e])
tc = (2*3.14*[Mass-e])/(H*[Charge-e])

What is the time period for an electron to revolve around a circular field?

The time period of an electron revolving in a circular orbit in a magnetic field is determined by the interplay between the magnetic force and the centripetal force required to keep the electron in its circular path. Based on this we can derive the period of motion as
T=2πr/v=2πvm/vqB=2πm/qB.

How to Calculate Time Period of Electron?

Time Period of Electron calculator uses Period of Particle Circular Path = (2*3.14*[Mass-e])/(Magnetic Field Strength*[Charge-e]) to calculate the Period of Particle Circular Path, The Time Period of Electron revolving in a circular orbit in a magnetic field is determined by the interplay between the magnetic force and the centripetal force required to keep the electron in its circular path. Period of Particle Circular Path is denoted by tc symbol.

How to calculate Time Period of Electron using this online calculator? To use this online calculator for Time Period of Electron, enter Magnetic Field Strength (H) and hit the calculate button. Here is how the Time Period of Electron calculation can be explained with given input values -> 1.6E-10 = (2*3.14*[Mass-e])/(0.23*[Charge-e]).

FAQ

What is Time Period of Electron?
The Time Period of Electron revolving in a circular orbit in a magnetic field is determined by the interplay between the magnetic force and the centripetal force required to keep the electron in its circular path and is represented as tc = (2*3.14*[Mass-e])/(H*[Charge-e]) or Period of Particle Circular Path = (2*3.14*[Mass-e])/(Magnetic Field Strength*[Charge-e]). Magnetic Field Strength is a measure of the intensity of a magnetic field in a given area of that field.
How to calculate Time Period of Electron?
The Time Period of Electron revolving in a circular orbit in a magnetic field is determined by the interplay between the magnetic force and the centripetal force required to keep the electron in its circular path is calculated using Period of Particle Circular Path = (2*3.14*[Mass-e])/(Magnetic Field Strength*[Charge-e]). To calculate Time Period of Electron, you need Magnetic Field Strength (H). With our tool, you need to enter the respective value for Magnetic Field Strength 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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