Table of Content

• What is Coefficient of Linear Expansion?
• Factors Influencing Coefficient of Linear Expansion
• Coefficient of Linear Expansion of Materials
• Applications of Coefficient of Linear Expansion

Material	Coefficient of Linear Expansion (α) at 20°C (10-6 K-1)
Aluminum	23.1
Brass	19
Copper	17
Glass	8
Iron	11.8
Lead	29
Steel	11
Concrete	12
Water	69
Air	3.4
Nylon	75
PVC	70
Silver	18
Silicon	2.56
Platinum	9

These values represent the change in length per unit length per degree Celsius. They change depending on the material’s molecular structure and composition.

Relation between Coefficient of Linear Expansion and Volume Expansion

The coefficient of linear expansion (α) and the coefficient of volume expansion (????) are related in the following way:

???? = 3α

This relationship arises from the fact that volume expansion involves changes in three dimensions (length, width, and height), each governed by the coefficient of linear expansion as volume is proportional to the cube of the length. 

Applications of Coefficient of Linear Expansion

The coefficient of linear expansion has various practical applications in everyday life and engineering. It is important for designing structures and systems that can handle temperature changes without damage. Here are some common applications:

• Bridge Construction: It helps design bridges that can expand and contract with temperature changes.

• Railway Tracks: Railway tracks use expansion joints for expansion and contraction of metal tracks due to temperature changes. Without these joints, the tracks could buckle, leading to accidents.

• Pipelines: It ensures pipelines can accommodate temperature variations without rupturing.

• Thermometers: It is used in designing thermometers to accurately measure temperature changes.

• Automobile Engines: Engine parts are designed considering thermal expansion to maintain performance.

Read More,

• Thermal Expansion
• Coefficient of Thermal Conductivity
• Thermal Properties of Matter

Solved Examples on Coefficient of Linear Expansion

Example 1: A steel rod has a length of 1.5 meters at 20°C. If its coefficient of linear expansion is 11 ×10^-6 K^-1, find its length at 100°C.

Solution:

Given, α = 11 × 10^-6 K^-1,

Δ???? = 100°???? − 20°???? = 80°???? and L=1.5 m.

Using the formula Δ???? = αLΔT, we find

Δ????= (11 × 10^-6 )(1.5)(80) = 0.0132 m.

Thus, the length at 100°C is 1.5 + 0.0132 = 1.5132 m.

Example 2: A copper wire has an original length of 2 meters. If its length increases by 0.05 cm when heated from 20°C to 100°C, find its coefficient of linear expansion.

Solution:

Given, ΔL= 0.05 cm,

Δ???? = 100°????−20°???? = 80°???? and L = 2 m.

Converting ΔL to meters (0.05 cm = 0.0005 m), we use the formula

???? =Δ????/????Δ????

???? = 0.0005/ 2 × 80 = 3.125 × 10^-6 K^-1.

Example 3: A brass rod has a length of 50 cm at 10°C. If its length increases by 0.1 cm when heated to 100°C, find its coefficient of linear expansion.

Solution:

Given, ΔL= 0.1 cm = 0.001 m,

Δ???? = 100°????−10°???? = 90°????, and L = 50 cm = 0.5 m.

Using α = ΔL/LΔT​, we find ???? = 0.001/ 0.5×90 = 2.22×10^-5 K^-1.

FAQs on Coefficient of Linear Expansion

What is Linear Expansion?

Linear expansion is the phenomenon of an increase in the length of a specimen or substance due to the same material’s increase in temperature.

What is the Coefficient of Linear Expansion?

The coefficient of linear expansion measures how much a material expands per unit length when heated.

What is Symbol for the coefficient of linear expansion?

The symbol for the coefficient of linear expansion is α.

How is Coefficient of Linear Expansion Calculated?

It is calculated using the formula ΔL = αLΔT, where ΔL is the change in length, α is the coefficient of linear expansion, L is the original length, and ΔT is the change in temperature.

What is SI Unit of Coefficient of Linear Expansion?

The SI unit is Kelvin inverse ( K^-1), representing the change in length per degree Celsius.

What is Coefficient of linear expansion of steel?

The coefficient of linear expansion of steel is approximately 11 × 10^-6 K^-1.

Coefficient of linear expansion depends on what factors?

Coefficients of linear expansion depend on factors like material composition, temperature, and crystal structure.

Why is Coefficient of Linear Expansion Important?

It helps predict how materials will respond to temperature changes, and is crucial for engineering and construction.

Do Different Materials Have Different Coefficients?

Yes, each material has its own unique coefficient of linear expansion based on its molecular structure.

Is Coefficient of Linear Expansion Only Relevant to Solids?

No, it applies to solids, liquids, and gases, but the magnitude varies between them.