Maximum Wavelight Calculator

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✖Energy Gap refers to the energy difference between the valence band and the conduction band in a solid material. It is also known as Band Gap.ⓘ Energy Gap [E_g]

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✖Maximum Wavelight refers to the longest wavelength of light that a device can effectively detect or respond to.ⓘ Maximum Wavelight [λ_max]

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Formula

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Maximum Wavelight

Formula

`"λ"_{"max"} = 1.24/"E"_{"g"}`

Example

`"6.4E^20m"=1.24/"0.012eV"`

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Maximum Wavelight Solution

STEP 0: Pre-Calculation Summary

Formula Used

Maximum Wavelight = 1.24/Energy Gap
λ_max = 1.24/E_g
This formula uses 2 Variables

Variables Used

Maximum Wavelight - (Measured in Meter) - Maximum Wavelight refers to the longest wavelength of light that a device can effectively detect or respond to.
Energy Gap - (Measured in Joule) - Energy Gap refers to the energy difference between the valence band and the conduction band in a solid material. It is also known as Band Gap.

STEP 1: Convert Input(s) to Base Unit

Energy Gap: 0.012 Electron-Volt --> 1.92261279600001E-21 Joule (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

λ_max = 1.24/E_g --> 1.24/1.92261279600001E-21

Evaluating ... ...

λ_max = 6.44955657519713E+20

STEP 3: Convert Result to Output's Unit

6.44955657519713E+20 Meter --> No Conversion Required

FINAL ANSWER

6.44955657519713E+20 ≈ 6.4E+20 Meter <-- Maximum Wavelight

(Calculation completed in 00.004 seconds)

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Credits

Created by Payal Priya

Birsa Institute of Technology (BIT), Sindri

Payal Priya has created this Calculator and 600+ more calculators!

Verified by Urvi Rathod

Vishwakarma Government Engineering College (VGEC), Ahmedabad

Urvi Rathod has verified this Calculator and 1900+ more calculators!

< 16 Diode Characteristics Calculators

Non-Ideal Diode Equation

Go Non Ideal Diode Current = Reverse Saturation Current*(e^(([Charge-e]*Diode Voltage)/(Ideality Factor*[BoltZ]*Temperature))-1)

Ideal Diode Equation

Go Diode Current = Reverse Saturation Current*(e^(([Charge-e]*Diode Voltage)/([BoltZ]*Temperature))-1)

Capacitance of Varactor Diode

Go Capacitance of Varactor Diode = Material Constant/((Barrier Potential+Reverse Voltage)^Doping Constant)

Self-Resonance Frequency of Varactor Diode

Go Self Resonance Frequency = 1/(2*pi*sqrt(Inductance of Varactor Diode*Capacitance of Varactor Diode))

Saturation Drain Current

Go Diode Saturation Current = 0.5*Transconductance Parameter*(Gate Source Voltage-Threshold Voltage)

Cut-off Frequency of Varactor Diode

Go Cut-off Frequency = 1/(2*pi*Series Field Resistance*Capacitance of Varactor Diode)

Zener Current

Go Zener Current = (Input Voltage-Zener Voltage)/Zener Resistance

Thermal Voltage of Diode Equation

Go Thermal Voltage = [BoltZ]*Temperature/[Charge-e]

Diode Equation for Germanium at Room Temperature

Go Germanium Diode Current = Reverse Saturation Current*(e^(Diode Voltage/0.026)-1)

Quality Factor of Varactor Diode

Go Quality Factor = Cut-off Frequency/Operating Frequency

Responsivity

Go Responsivity = Photo Current/Incident Optical Power

Zener Resistance

Go Zener Resistance = Zener Voltage/Zener Current

Zener Voltage

Go Zener Voltage = Zener Resistance*Zener Current

Average DC Current

Go Direct Current = 2*Peak Current/pi

Voltage Equivalent of Temperature

Go Volt-Equivalent of Temperature = Room Temperature/11600

Maximum Wavelight

Go Maximum Wavelight = 1.24/Energy Gap

Maximum Wavelight Formula

Maximum Wavelight = 1.24/Energy Gap
λ_max = 1.24/E_g

Which way does current flow through a Zener diode?

A Zener diode is a silicon semiconductor device that permits current to flow in either a forward or reverse direction. The diode consists of a special, heavily doped p-n junction, designed to conduct in the reverse direction when a certain specified voltage is reached.

Why is there sudden increase in current in Zener diode?

When Zener diode is connected in reverse bias, as applied voltage reaches at Zener breakdown voltage, due to rupture of bonds there is a sudden increase in current in Zener diode.

How to Calculate Maximum Wavelight?

Maximum Wavelight calculator uses Maximum Wavelight = 1.24/Energy Gap to calculate the Maximum Wavelight, Maximum Wavelight refers to the longest wavelength of light that a device can effectively detect or respond to. Maximum Wavelight is denoted by λ_max symbol.

How to calculate Maximum Wavelight using this online calculator? To use this online calculator for Maximum Wavelight, enter Energy Gap (E_g) and hit the calculate button. Here is how the Maximum Wavelight calculation can be explained with given input values -> 6.4E+20 = 1.24/1.92261279600001E-21.

FAQ

What is Maximum Wavelight?

Maximum Wavelight refers to the longest wavelength of light that a device can effectively detect or respond to and is represented as λ_max = 1.24/E_g or Maximum Wavelight = 1.24/Energy Gap. Energy Gap refers to the energy difference between the valence band and the conduction band in a solid material. It is also known as Band Gap.

How to calculate Maximum Wavelight?

Maximum Wavelight refers to the longest wavelength of light that a device can effectively detect or respond to is calculated using Maximum Wavelight = 1.24/Energy Gap. To calculate Maximum Wavelight, you need Energy Gap (E_g). With our tool, you need to enter the respective value for Energy Gap 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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