## Absorbed Power Solution

STEP 0: Pre-Calculation Summary
Formula Used
Absorbed Power = Incident Power*exp(-Sample Thickness*Absorption Coefficient)
Pabs = Pi*exp(-b*α)
This formula uses 1 Functions, 4 Variables
Functions Used
exp - n an exponential function, the value of the function changes by a constant factor for every unit change in the independent variable., exp(Number)
Variables Used
Absorbed Power - (Measured in Watt) - Absorbed Power is defined as the power consumed by a solid state device while operating.
Incident Power - (Measured in Watt) - Incident Power is the intensity of the incident light ray striking the surface.
Sample Thickness - (Measured in Meter) - Sample Thickness is defined as the total distance between the two planes of the sample taken.
Absorption Coefficient - (Measured in 1 per Meter) - Absorption Coefficient determines how far into a material, light of a particular wavelength can penetrate before it is absorbed.
STEP 1: Convert Input(s) to Base Unit
Incident Power: 0.22 Watt --> 0.22 Watt No Conversion Required
Sample Thickness: 0.46 Micrometer --> 4.6E-07 Meter (Check conversion ​here)
Absorption Coefficient: 15608.42 1 per Centimeter --> 1560842 1 per Meter (Check conversion ​here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Pabs = Pi*exp(-b*α) --> 0.22*exp(-4.6E-07*1560842)
Evaluating ... ...
Pabs = 0.107301242188786
STEP 3: Convert Result to Output's Unit
0.107301242188786 Watt --> No Conversion Required
0.107301242188786 0.107301 Watt <-- Absorbed Power
(Calculation completed in 00.007 seconds)
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## < 16 SSD Junction Calculators

Junction Capacitance
Junction Capacitance = (Junction Area/2)*sqrt((2*[Charge-e]*Constant Length Offset*Doping Concentration of Base)/(Source Voltage-Source Voltage 1))
Length of P-Side Junction
Length of P-Side Junction = (Optical Current/([Charge-e]*Junction Area*Optical Generation Rate))-(Junction Transition Width+Diffusion Length of Transition Region)
Junction Transition Width
Junction Transition Width = Charge Penetration N-type*((Acceptor Concentration+Donor Concentration)/Acceptor Concentration)
Series Resistance in P-type
Series Resistance in P Junction = ((Source Voltage-Junction Voltage)/Electric Current)-Series Resistance in N Junction
Series Resistance in N-type
Series Resistance in N Junction = ((Source Voltage-Junction Voltage)/Electric Current)-Series Resistance in P Junction
Junction Voltage
Junction Voltage = Source Voltage-(Series Resistance in P Junction+Series Resistance in N Junction)*Electric Current
Cross-Sectional Area of Junction
Junction Area = Total Acceptor Charge/([Charge-e]*Charge Penetration N-type*Acceptor Concentration)
Acceptor Concentration
Acceptor Concentration = Total Acceptor Charge/([Charge-e]*Charge Penetration N-type*Junction Area)
N-Type Width
Charge Penetration N-type = Total Acceptor Charge/(Junction Area*Acceptor Concentration*[Charge-e])
Total Acceptor Charge
Total Acceptor Charge = [Charge-e]*Charge Penetration N-type*Junction Area*Acceptor Concentration
Donor Concentration
Donor Concentration = Total Acceptor Charge/([Charge-e]*Charge Penetration P-type*Junction Area)
Absorption Coefficient
Absorption Coefficient = (-1/Sample Thickness)*ln(Absorbed Power/Incident Power)
Absorbed Power
Absorbed Power = Incident Power*exp(-Sample Thickness*Absorption Coefficient)
Net Distribution of Charge
Net Distribution = (Donor Concentration-Acceptor Concentration)/Graded Constant
P-N Junction Length
Junction Length = Constant Length Offset+Effective Channel Length
Quantum Number
Quantum Number = [Coulomb]*Potential Well Length/3.14

## Absorbed Power Formula

Absorbed Power = Incident Power*exp(-Sample Thickness*Absorption Coefficient)
Pabs = Pi*exp(-b*α)

## What are the applications of calculating the Absorbed Power?

Calculating absorbed power is crucial in various fields like electrical engineering, where it determines energy consumption in circuits, aiding in optimizing efficiency and sizing components. In mechanical systems, it assesses energy transfer, guiding design for maximum output. In physics and chemistry, it helps understand heat transfer and reaction rates in materials.

## How to Calculate Absorbed Power?

Absorbed Power calculator uses Absorbed Power = Incident Power*exp(-Sample Thickness*Absorption Coefficient) to calculate the Absorbed Power, The Absorbed Power formula is defined as the intensity of light transmitted through the sample thickness. Absorbed Power is denoted by Pabs symbol.

How to calculate Absorbed Power using this online calculator? To use this online calculator for Absorbed Power, enter Incident Power (Pi), Sample Thickness (b) & Absorption Coefficient (α) and hit the calculate button. Here is how the Absorbed Power calculation can be explained with given input values -> 0.107301 = 0.22*exp(-4.6E-07*1560842).

### FAQ

What is Absorbed Power?
The Absorbed Power formula is defined as the intensity of light transmitted through the sample thickness and is represented as Pabs = Pi*exp(-b*α) or Absorbed Power = Incident Power*exp(-Sample Thickness*Absorption Coefficient). Incident Power is the intensity of the incident light ray striking the surface, Sample Thickness is defined as the total distance between the two planes of the sample taken & Absorption Coefficient determines how far into a material, light of a particular wavelength can penetrate before it is absorbed.
How to calculate Absorbed Power?
The Absorbed Power formula is defined as the intensity of light transmitted through the sample thickness is calculated using Absorbed Power = Incident Power*exp(-Sample Thickness*Absorption Coefficient). To calculate Absorbed Power, you need Incident Power (Pi), Sample Thickness (b) & Absorption Coefficient (α). With our tool, you need to enter the respective value for Incident Power, Sample Thickness & Absorption Coefficient 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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