Temperature of Small Body using Absorptivity and Absorbed Radiation Calculator

✖The Absorbed Radiation is the portion of incident radiation energy that is absorbed by a surface, influencing temperature and energy transfer in thermal systems.ⓘ Absorbed Radiation [G_abs]			+10% -10%
✖The Absorptivity is the measure of a material's ability to absorb radiation, indicating how much energy is absorbed compared to the total incident radiation.ⓘ Absorptivity [α]			+10% -10%

✖The Temperature is a measure of the thermal energy of a system, indicating how hot or cold it is, and plays a crucial role in heat transfer processes.ⓘ Temperature of Small Body using Absorptivity and Absorbed Radiation [T]

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Temperature of Small Body using Absorptivity and Absorbed Radiation Solution

STEP 0: Pre-Calculation Summary

Formula Used

Temperature = (Absorbed Radiation/([Stefan-BoltZ]*Absorptivity))^0.25
T = (G_abs/([Stefan-BoltZ]*α))^0.25
This formula uses 1 Constants, 3 Variables

Constants Used

[Stefan-BoltZ] - Stefan-Boltzmann Constant Value Taken As 5.670367E-8

Variables Used

Temperature - (Measured in Kelvin) - The Temperature is a measure of the thermal energy of a system, indicating how hot or cold it is, and plays a crucial role in heat transfer processes.
Absorbed Radiation - (Measured in Watt per Square Meter) - The Absorbed Radiation is the portion of incident radiation energy that is absorbed by a surface, influencing temperature and energy transfer in thermal systems.
Absorptivity - The Absorptivity is the measure of a material's ability to absorb radiation, indicating how much energy is absorbed compared to the total incident radiation.

STEP 1: Convert Input(s) to Base Unit

Absorbed Radiation: 1.923979 Watt per Square Meter --> 1.923979 Watt per Square Meter No Conversion Required
Absorptivity: 0.65 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

T = (G_abs/([Stefan-BoltZ]*α))^0.25 --> (1.923979/([Stefan-BoltZ]*0.65))^0.25

Evaluating ... ...

T = 85.0000048711421

STEP 3: Convert Result to Output's Unit

85.0000048711421 Kelvin --> No Conversion Required

FINAL ANSWER

85.0000048711421 ≈ 85 Kelvin <-- Temperature

(Calculation completed in 00.020 seconds)

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Created by Sai Venkata Phanindra Chary Arendra

Vallurupalli Nageswara Rao Vignana Jyothi Institute of Engineering and Technology (VNRVJIET), Hyderabad

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< Kirchhoff's Law Calculators

Temperature of Small Body using Absorptivity and Absorbed Radiation

LaTeX Go Temperature = (Absorbed Radiation/([Stefan-BoltZ]*Absorptivity))^0.25

Temperature of Small Body given Emissivity and Emitted Radiation

LaTeX Go Temperature = (Emitted Radiation/(Emissivity*[Stefan-BoltZ]))^0.25

Radiation Absorbed by Small Body Per Unit of its Surface Area

LaTeX Go Absorbed Radiation = Absorptivity*[Stefan-BoltZ]*(Temperature^4)

Radiation emitted by small body

LaTeX Go Emitted Radiation = Emissivity*[Stefan-BoltZ]*(Temperature^4)

Temperature of Small Body using Absorptivity and Absorbed Radiation Formula

LaTeX Go

Temperature = (Absorbed Radiation/([Stefan-BoltZ]*Absorptivity))^0.25
T = (G_abs/([Stefan-BoltZ]*α))^0.25

What is Kirchhoff Law?

The total hemispherical emissivity of a surface at temperature T is equal to its total hemispherical absorptivity for radiation coming from a blackbody at the same temperature. This relation, which greatly simplifies the radiation analysis, was first developed by Gustav Kirchhoff in 1860 and is now called Kirchhoff’s law.

How to Calculate Temperature of Small Body using Absorptivity and Absorbed Radiation?

Temperature of Small Body using Absorptivity and Absorbed Radiation calculator uses Temperature = (Absorbed Radiation/([Stefan-BoltZ]*Absorptivity))^0.25 to calculate the Temperature, Temperature of Small Body using Absorptivity and Absorbed Radiation formula is defined as a measure of the temperature of a small body that is heated by radiation, taking into account the absorptivity of the body and the amount of radiation it absorbs, providing a way to quantify the thermal response of the body to radiative heating. Temperature is denoted by T symbol.

How to calculate Temperature of Small Body using Absorptivity and Absorbed Radiation using this online calculator? To use this online calculator for Temperature of Small Body using Absorptivity and Absorbed Radiation, enter Absorbed Radiation (G_abs) & Absorptivity (α) and hit the calculate button. Here is how the Temperature of Small Body using Absorptivity and Absorbed Radiation calculation can be explained with given input values -> 289.8092 = (1.923979/([Stefan-BoltZ]*0.65))^0.25.

FAQ

What is Temperature of Small Body using Absorptivity and Absorbed Radiation?

Temperature of Small Body using Absorptivity and Absorbed Radiation formula is defined as a measure of the temperature of a small body that is heated by radiation, taking into account the absorptivity of the body and the amount of radiation it absorbs, providing a way to quantify the thermal response of the body to radiative heating and is represented as T = (G_abs/([Stefan-BoltZ]*α))^0.25 or Temperature = (Absorbed Radiation/([Stefan-BoltZ]*Absorptivity))^0.25. The Absorbed Radiation is the portion of incident radiation energy that is absorbed by a surface, influencing temperature and energy transfer in thermal systems & The Absorptivity is the measure of a material's ability to absorb radiation, indicating how much energy is absorbed compared to the total incident radiation.

How to calculate Temperature of Small Body using Absorptivity and Absorbed Radiation?

Temperature of Small Body using Absorptivity and Absorbed Radiation formula is defined as a measure of the temperature of a small body that is heated by radiation, taking into account the absorptivity of the body and the amount of radiation it absorbs, providing a way to quantify the thermal response of the body to radiative heating is calculated using Temperature = (Absorbed Radiation/([Stefan-BoltZ]*Absorptivity))^0.25. To calculate Temperature of Small Body using Absorptivity and Absorbed Radiation, you need Absorbed Radiation (G_abs) & Absorptivity (α). With our tool, you need to enter the respective value for Absorbed Radiation & Absorptivity and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

How many ways are there to calculate Temperature?

In this formula, Temperature uses Absorbed Radiation & Absorptivity. We can use 1 other way(s) to calculate the same, which is/are as follows -

Temperature = (Emitted Radiation/(Emissivity*[Stefan-BoltZ]))^0.25

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