Temperature Unit Converter

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This temperature unit converter is a comprehensive tool that allows you to convert between all the most used temperature units. Whether you work in science, cooking, meteorology, engineering, or any other field requiring temperature conversions, our converter offers you a fast, free and precise solution to switch between celsius, fahrenheit, kelvin, rankine and réaumur.

This tool supports all temperature scales: Celsius (°C), Fahrenheit (°F), Kelvin (K), Rankine (°R), and Réaumur (°Ré). Convert your temperature measurements instantly with maximum precision! Precise conversion for scientific, culinary and industrial applications.

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Enter the temperature value you want to convert, select the source unit and the desired target unit. The tool will automatically perform the conversion with high precision while avoiding temperatures below absolute zero.

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Convert temperature units

Enter the temperature value to convert and choose the source and target units. The converter supports all common temperature units.

Temperature value

Source unit

Target unit

Understanding Temperature Conversions

Converting between temperature units is fundamental in many fields: science, cooking, meteorology, industry, and daily life. Unlike other unit conversions, temperatures often require adding or subtracting constants in addition to multiplicative factors.

Main Temperature Scales

Celsius (°C) - The Global Reference Scale

The Celsius scale, created by Anders Celsius in 1742, is the worldwide reference unit for temperature. It's defined by two fixed points: 0°C for ice melting and 100°C for water boiling at normal atmospheric pressure.

Main usage: Meteorology, science, cooking, medicine
Advantages: Intuitive for water (basis of life), decimal scale
Conversion to Kelvin: K = °C + 273.15

Fahrenheit (°F) - The Anglo-Saxon Scale

Developed by Daniel Gabriel Fahrenheit in 1724, this scale is still widely used in the United States. It sets 32°F for ice melting and 212°F for water boiling.

Main usage: United States, local weather, American cooking
Particularity: More precise for ambient temperatures (wider scale)
Conversion to Celsius: °C = (°F - 32) × 5/9

Kelvin (K) - The Absolute Scientific Scale

Kelvin, the SI unit of thermodynamic temperature, starts at absolute zero (-273.15°C). This scale, proposed by Lord Kelvin, is essential in physics and chemistry.

Main usage: Scientific research, physics, chemistry, astronomy
Advantage: No negative temperatures, direct proportionality to kinetic energy
Reference point: 0 K = absolute zero (theoretical cessation of molecular motion)

Rankine (°R) - The Anglo-Saxon Absolute Scale

The Rankine scale uses Fahrenheit degrees but starts at absolute zero, like Kelvin. It's primarily used in American thermodynamic engineering.

Main usage: Thermal engineering in the United States
Relationship: °R = °F + 459.67
Conversion to Kelvin: K = °R × 5/9

Réaumur (°Ré) - The European Historical Scale

Created by René Antoine Ferchault de Réaumur in 1730, this scale sets 0°Ré for melting ice and 80°Ré for boiling water. Mainly historical, it's sometimes still used in Central Europe.

Main usage: Historical, some industrial applications in Europe
Particularity: 80-degree scale between ice and steam
Conversion to Celsius: °C = °Ré × 5/4

Essential Practical Conversions

Reference temperatures to remember

Reference point	Celsius	Fahrenheit	Kelvin
Absolute zero	-273.15°C	-459.67°F	0 K
Ice melting	0°C	32°F	273.15 K
Body temperature	37°C	98.6°F	310.15 K
Water boiling	100°C	212°F	373.15 K

Conversion Formulas

Main formulas (from Celsius)

Celsius → Fahrenheit: °F = (°C × 9/5) + 32
Celsius → Kelvin: K = °C + 273.15
Celsius → Rankine: °R = (°C + 273.15) × 9/5
Celsius → Réaumur: °Ré = °C × 4/5

Practical Applications by Field

Cooking and Food

Temperature conversion is crucial for:

International recipe adaptation (US/EU)
Cooking control (serving temperature, preservation)
Food safety (pasteurization temperatures)
Baking (precision required for certain techniques)

Science and Research

Conversions are essential for:

Scientific publications (international standardization)
Experiments (result reproducibility)
Modeling (thermodynamic calculations)
Instrument calibration (metrology)

Industry and Engineering

Mastering conversions enables:

Industrial process control
Preventive maintenance (temperature thresholds)
International collaboration (norms and standards)
Safety (overheating prevention)

Common Mistakes to Avoid

⚠️ Frequent Conversion Pitfalls

Forgetting the constant: °F ≠ °C × 9/5 but °F = (°C × 9/5) + 32
Confusing absolute scales: 0 K ≠ 0°C
Dangerous approximations: In science, precision is crucial
Mixing formulas: Each conversion has its specific formula

Memory Tips

Water and ice: 0°C = 32°F (0 degrees = 32 Fahrenheit)
Body temperature: 37°C ≈ 100°F (easy to remember)
Quick doubling: °C × 2 + 30 ≈ °F (practical approximation)
Simple Kelvin: K = °C + 273 (common approximation)

Remember: Mastering temperature conversions is essential in many fields. Understanding scales and their specific uses will help you choose the right unit according to context.

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