Net Energy Leaving given Radiosity and Irradiation Solution

STEP 0: Pre-Calculation Summary
Formula Used
Heat Transfer = Area*(Radiosity-Irradiation)
q = A*(J-G)
This formula uses 4 Variables
Variables Used
Heat Transfer - (Measured in Watt) - Heat Transfer is the amount of heat that is transferred per unit of time in some material, usually measured in watts (joules per second).
Area - (Measured in Square Meter) - The area is the amount of two-dimensional space taken up by an object.
Radiosity - (Measured in Watt per Square Meter) - Radiosity represents the rate at which radiation energy leaves a unit area of a surface in all directions.
Irradiation - (Measured in Watt per Square Meter) - Irradiation is the radiation flux incident on a surface from all directions.
STEP 1: Convert Input(s) to Base Unit
Area: 50.3 Square Meter --> 50.3 Square Meter No Conversion Required
Radiosity: 308 Watt per Square Meter --> 308 Watt per Square Meter No Conversion Required
Irradiation: 0.8 Watt per Square Meter --> 0.8 Watt per Square Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
q = A*(J-G) --> 50.3*(308-0.8)
Evaluating ... ...
q = 15452.16
STEP 3: Convert Result to Output's Unit
15452.16 Watt --> No Conversion Required
FINAL ANSWER
15452.16 Watt <-- Heat Transfer
(Calculation completed in 00.009 seconds)

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Net Energy Leaving given Radiosity and Irradiation Formula

​LaTeX ​Go
Heat Transfer = Area*(Radiosity-Irradiation)
q = A*(J-G)

What is Radiation?

Radiation is energy that comes from a source and travels through space at the speed of light. This energy has an electric field and a magnetic field associated with it, and has wave-like properties. You could also call radiation “electromagnetic waves”.

What is Blackbody?

A black body is defined as the body which absorbs all the electromagnetic radiation (that is light) that strikes it irrespective of the angle of incidence and frequency of the radiation.

How to Calculate Net Energy Leaving given Radiosity and Irradiation?

Net Energy Leaving given Radiosity and Irradiation calculator uses Heat Transfer = Area*(Radiosity-Irradiation) to calculate the Heat Transfer, The Net Energy Leaving given Radiosity and Irradiation formula is defined as the product of area of heat transfer and the difference between radiosity and irradiation. Heat Transfer is denoted by q symbol.

How to calculate Net Energy Leaving given Radiosity and Irradiation using this online calculator? To use this online calculator for Net Energy Leaving given Radiosity and Irradiation, enter Area (A), Radiosity (J) & Irradiation (G) and hit the calculate button. Here is how the Net Energy Leaving given Radiosity and Irradiation calculation can be explained with given input values -> 15452.16 = 50.3*(308-0.8).

FAQ

What is Net Energy Leaving given Radiosity and Irradiation?
The Net Energy Leaving given Radiosity and Irradiation formula is defined as the product of area of heat transfer and the difference between radiosity and irradiation and is represented as q = A*(J-G) or Heat Transfer = Area*(Radiosity-Irradiation). The area is the amount of two-dimensional space taken up by an object, Radiosity represents the rate at which radiation energy leaves a unit area of a surface in all directions & Irradiation is the radiation flux incident on a surface from all directions.
How to calculate Net Energy Leaving given Radiosity and Irradiation?
The Net Energy Leaving given Radiosity and Irradiation formula is defined as the product of area of heat transfer and the difference between radiosity and irradiation is calculated using Heat Transfer = Area*(Radiosity-Irradiation). To calculate Net Energy Leaving given Radiosity and Irradiation, you need Area (A), Radiosity (J) & Irradiation (G). With our tool, you need to enter the respective value for Area, Radiosity & Irradiation 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 Heat Transfer?
In this formula, Heat Transfer uses Area, Radiosity & Irradiation. We can use 3 other way(s) to calculate the same, which is/are as follows -
  • Heat Transfer = (Surface Area of Body 1*[Stefan-BoltZ]*((Temperature of Surface 1^4)-(Temperature of Surface 2^4)))/((1/Emissivity of Body 1)+(((1/Emissivity of Body 2)-1)*((Radius of Smaller Sphere/Radius of Larger Sphere)^2)))
  • Heat Transfer = Surface Area of Body 1*Emissivity of Body 1*[Stefan-BoltZ]*((Temperature of Surface 1^4)-(Temperature of Surface 2^4))
  • Heat Transfer = (Area*[Stefan-BoltZ]*((Temperature of Surface 1^4)-(Temperature of Surface 2^4)))/((1/Emissivity of Body 1)+(1/Emissivity of Body 2)-1)
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