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The Coefficient of Thermal Expansion is a material property that is indicative of the extent to which a material expands upon heating. Check FAQs
α=σtEgpa(Tf-ti)
α - Coefficient of Thermal Expansion?σt - Thermal Stress?Egpa - Modulus of Elasticity in Gpa?Tf - Final Temperature?ti - Initial Temperature?

Coefficient of Thermal Expansion using Initial and Final Temperature of Water Pipe Example

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Here is how the Coefficient of Thermal Expansion using Initial and Final Temperature of Water Pipe equation looks like with Values.

Here is how the Coefficient of Thermal Expansion using Initial and Final Temperature of Water Pipe equation looks like with Units.

Here is how the Coefficient of Thermal Expansion using Initial and Final Temperature of Water Pipe equation looks like.

0.0004Edit=1.4Edit200Edit(22Edit-5.87Edit)
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Coefficient of Thermal Expansion using Initial and Final Temperature of Water Pipe Solution

Follow our step by step solution on how to calculate Coefficient of Thermal Expansion using Initial and Final Temperature of Water Pipe?

FIRST Step Consider the formula
α=σtEgpa(Tf-ti)
Next Step Substitute values of Variables
α=1.4GPa200GPa(22°C-5.87°C)
Next Step Convert Units
α=1.4E+9Pa2E+11Pa(22°C-5.87°C)
Next Step Prepare to Evaluate
α=1.4E+92E+11(22-5.87)
Next Step Evaluate
α=0.0004339739615623061/K
Next Step Convert to Output's Unit
α=0.000433973961562306°C⁻¹
LAST Step Rounding Answer
α=0.0004°C⁻¹

Coefficient of Thermal Expansion using Initial and Final Temperature of Water Pipe Formula Elements

Variables
Coefficient of Thermal Expansion
The Coefficient of Thermal Expansion is a material property that is indicative of the extent to which a material expands upon heating.
Symbol: α
Measurement: Temperature Coefficient of ResistanceUnit: °C⁻¹
Note: Value can be positive or negative.
Thermal Stress
Thermal Stress is the stress produced by any change in the temperature of the material. Thermal stress is induced in a body when the temperature of the body is raised or lowered.
Symbol: σt
Measurement: StressUnit: GPa
Note: Value can be positive or negative.
Modulus of Elasticity in Gpa
Modulus of Elasticity in Gpa is the unit of measurement of an object's or substance's resistance to being deformed elastically when a stress is applied to it in Gpa.
Symbol: Egpa
Measurement: StressUnit: GPa
Note: Value should be greater than 0.
Final Temperature
Final Temperature is change in temperature to your substance's original temperature to find its final heat.
Symbol: Tf
Measurement: TemperatureUnit: °C
Note: Value can be positive or negative.
Initial Temperature
Initial Temperature is the measure of hotness or coldness of a system at its initial state.
Symbol: ti
Measurement: TemperatureUnit: °C
Note: Value can be positive or negative.

Other Formulas to find Coefficient of Thermal Expansion

​Go Coefficient of Thermal Expansion using Temperature Variation in Water Pipe
α=σtEgpaΔt

Other formulas in Temperature Stresses category

​Go Temperature Stress using Initial and Final Temperature
σt=Egpaα(Tf-ti)
​Go Temperature Stress using Temperature Variation in Water Pipe
σt=EgpaαΔt
​Go Temperature Variation using Thermal Stress Developed in Pipes
Δt=σtEgpaα
​Go Modulus of Elasticity of Pipe Material
Egpa=σtαΔt

How to Evaluate Coefficient of Thermal Expansion using Initial and Final Temperature of Water Pipe?

Coefficient of Thermal Expansion using Initial and Final Temperature of Water Pipe evaluator uses Coefficient of Thermal Expansion = Thermal Stress/(Modulus of Elasticity in Gpa*(Final Temperature-Initial Temperature)) to evaluate the Coefficient of Thermal Expansion, The Coefficient of Thermal Expansion using Initial and Final Temperature of Water Pipe formula is defined as the relative expansion of the steel pipe divided by the change in temperature for that pipe section. Coefficient of Thermal Expansion is denoted by α symbol.

How to evaluate Coefficient of Thermal Expansion using Initial and Final Temperature of Water Pipe using this online evaluator? To use this online evaluator for Coefficient of Thermal Expansion using Initial and Final Temperature of Water Pipe, enter Thermal Stress t), Modulus of Elasticity in Gpa (Egpa), Final Temperature (Tf) & Initial Temperature (ti) and hit the calculate button.

FAQs on Coefficient of Thermal Expansion using Initial and Final Temperature of Water Pipe

What is the formula to find Coefficient of Thermal Expansion using Initial and Final Temperature of Water Pipe?
The formula of Coefficient of Thermal Expansion using Initial and Final Temperature of Water Pipe is expressed as Coefficient of Thermal Expansion = Thermal Stress/(Modulus of Elasticity in Gpa*(Final Temperature-Initial Temperature)). Here is an example- 0.000434 = 1400000000/(200000000000*(295.15-279.02)).
How to calculate Coefficient of Thermal Expansion using Initial and Final Temperature of Water Pipe?
With Thermal Stress t), Modulus of Elasticity in Gpa (Egpa), Final Temperature (Tf) & Initial Temperature (ti) we can find Coefficient of Thermal Expansion using Initial and Final Temperature of Water Pipe using the formula - Coefficient of Thermal Expansion = Thermal Stress/(Modulus of Elasticity in Gpa*(Final Temperature-Initial Temperature)).
What are the other ways to Calculate Coefficient of Thermal Expansion?
Here are the different ways to Calculate Coefficient of Thermal Expansion-
  • Coefficient of Thermal Expansion=Thermal Stress/(Modulus of Elasticity in Gpa*Change in Temperature)OpenImg
Can the Coefficient of Thermal Expansion using Initial and Final Temperature of Water Pipe be negative?
Yes, the Coefficient of Thermal Expansion using Initial and Final Temperature of Water Pipe, measured in Temperature Coefficient of Resistance can be negative.
Which unit is used to measure Coefficient of Thermal Expansion using Initial and Final Temperature of Water Pipe?
Coefficient of Thermal Expansion using Initial and Final Temperature of Water Pipe is usually measured using the Per Degree Celsius[°C⁻¹] for Temperature Coefficient of Resistance. Per Kelvin[°C⁻¹] are the few other units in which Coefficient of Thermal Expansion using Initial and Final Temperature of Water Pipe can be measured.
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