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Inner Heat Transfer Coefficient given Inner Thermal Resistance Formula

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Inside Convection Heat Transfer Coefficient is the coefficient of convection heat transfer at the inside surface of the body or object or wall, etc. Check FAQs

h inside = \frac{1}{A inside \cdot R th}

h_inside - Inside Convection Heat Transfer Coefficient?A_inside - Inside Area?R_th - Thermal Resistance?

Inner Heat Transfer Coefficient given Inner Thermal Resistance Example

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Here is how the Inner Heat Transfer Coefficient given Inner Thermal Resistance equation looks like with Values.

Here is how the Inner Heat Transfer Coefficient given Inner Thermal Resistance equation looks like with Units.

Here is how the Inner Heat Transfer Coefficient given Inner Thermal Resistance equation looks like.

1.3736 = \frac{1}{0.14 \cdot 5.2}

1.3736W/m²*K = \frac{1}{0.14m² \cdot 5.2K/W}

1.3736 = \frac{1}{0.14 \cdot 5.2}

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Inner Heat Transfer Coefficient given Inner Thermal Resistance Solution

Follow our step by step solution on how to calculate Inner Heat Transfer Coefficient given Inner Thermal Resistance?

FIRST Step Consider the formula

h inside = \frac{1}{A inside \cdot R th}

Next Step Substitute values of Variables

∴

h inside = \frac{1}{0.14m² \cdot 5.2K/W}

Next Step Prepare to Evaluate

∴

h inside = \frac{1}{0.14 \cdot 5.2}

Next Step Evaluate

∴

h inside = 1.37362637362637W/m²*K

LAST Step Rounding Answer

∴

h inside = 1.3736W/m²*K

Inner Heat Transfer Coefficient given Inner Thermal Resistance Formula Elements

Variables

Inside Convection Heat Transfer Coefficient

Inside Convection Heat Transfer Coefficient is the coefficient of convection heat transfer at the inside surface of the body or object or wall, etc.

Symbol: h_inside

Measurement: Heat Transfer CoefficientUnit: W/m²*K

Note: Value should be greater than 0.

Formulas to find Inside Convection Heat Transfer Coefficient

Inside Area

Inside Area is defined as the space inside the shape. It's a measure of 2-D space, and the units for area are squared ("length squared").

Symbol: A_inside

Measurement: AreaUnit: m²

Note: Value should be greater than 0.

Formulas to find Inside Area

Thermal Resistance

Thermal resistance is a heat property and a measurement of a temperature difference by which an object or material resists a heat flow.

Symbol: R_th

Measurement: Thermal ResistanceUnit: K/W

Note: Value can be positive or negative.

Formulas to find Thermal Resistance

Other formulas in Thermal Resistance category

Go Biot Number using Characteristic Length

Bi = \frac{h transfer \cdot L char}{k fin}

Go Correction Length for Cylindrical Fin with Non-Adiabatic Tip

L cylindrical = L fin + (\frac{d fin}{4})

Go Correction Length for Square Fin with Non-Adiabatic Tip

L sqaure = L fin + (\frac{w fin}{4})

Go Correction Length for Thin Rectangular Fin with Non-Adiabatic Tip

L rectangular = L fin + (\frac{t fin}{2})

How to Evaluate Inner Heat Transfer Coefficient given Inner Thermal Resistance?

Inner Heat Transfer Coefficient given Inner Thermal Resistance evaluator uses Inside Convection Heat Transfer Coefficient = 1/(Inside Area*Thermal Resistance) to evaluate the Inside Convection Heat Transfer Coefficient, The Inner Heat Transfer Coefficient given Inner Thermal Resistance formula is defined as the reciprocal of multiplication of Thermal resistance and Inside area. The convective heat transfer coefficient depends on the fluid’s physical properties and the physical situation. The convective heat transfer coefficient is not a property of the fluid. It is an experimentally determined parameter whose value depends on all the variables influencing convection, such as the surface geometry, the nature of fluid motion, the properties of the fluid, and the bulk fluid velocity. Inside Convection Heat Transfer Coefficient is denoted by h_inside symbol.

How to evaluate Inner Heat Transfer Coefficient given Inner Thermal Resistance using this online evaluator? To use this online evaluator for Inner Heat Transfer Coefficient given Inner Thermal Resistance, enter Inside Area (A_inside) & Thermal Resistance (R_th) and hit the calculate button.

FAQs on Inner Heat Transfer Coefficient given Inner Thermal Resistance

What is the formula to find Inner Heat Transfer Coefficient given Inner Thermal Resistance?

The formula of Inner Heat Transfer Coefficient given Inner Thermal Resistance is expressed as Inside Convection Heat Transfer Coefficient = 1/(Inside Area*Thermal Resistance). Here is an example- 1.373626 = 1/(0.14*5.2).

How to calculate Inner Heat Transfer Coefficient given Inner Thermal Resistance?

With Inside Area (A_inside) & Thermal Resistance (R_th) we can find Inner Heat Transfer Coefficient given Inner Thermal Resistance using the formula - Inside Convection Heat Transfer Coefficient = 1/(Inside Area*Thermal Resistance).

Can the Inner Heat Transfer Coefficient given Inner Thermal Resistance be negative?

No, the Inner Heat Transfer Coefficient given Inner Thermal Resistance, measured in Heat Transfer Coefficient cannot be negative.

Which unit is used to measure Inner Heat Transfer Coefficient given Inner Thermal Resistance?

Inner Heat Transfer Coefficient given Inner Thermal Resistance is usually measured using the Watt per Square Meter per Kelvin[W/m²*K] for Heat Transfer Coefficient. Watt per Square Meter per Celcius[W/m²*K], Joule per Second per Square Meter per Kelvin[W/m²*K], Kilocalorie (IT) per Hour per Square Foot per Celcius[W/m²*K] are the few other units in which Inner Heat Transfer Coefficient given Inner Thermal Resistance can be measured.

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