Temperature Converter - Free Online Tool for Instant Temperature Conversion

Converting temperatures between different units doesn't have to be complicated. Whether you're a student working on physics homework, a chef following international recipes, a scientist conducting experiments, or simply planning travel abroad, our Temperature Converter makes it effortless to convert between Celsius, Fahrenheit, Kelvin, and other temperature scales with precision and speed.

What Is a Temperature Converter?

A temperature converter is a digital tool that instantly transforms temperature values from one measurement scale to another. Unlike manual calculations that require memorizing complex formulas, our online temperature converter handles all the mathematical conversions automatically, delivering accurate results in milliseconds.

Temperature measurement systems vary worldwide. While most countries use Celsius (°C), the United States primarily uses Fahrenheit (°F), and scientific communities universally rely on Kelvin (K). This diversity creates confusion, making a reliable temperature conversion tool essential for anyone working across different measurement systems.

Why You Need a Temperature Converter

Global Communication and Travel

When traveling internationally or communicating with people from different countries, temperature references can cause significant misunderstandings. A weather forecast showing 25°C might seem cold to someone accustomed to Fahrenheit until they realize it's actually a pleasant 77°F. Our online calculator tools make these conversions instant and error-free.

Scientific and Academic Accuracy

Scientists, researchers, and students frequently need to convert between temperature scales, particularly when referencing international studies or following standardized protocols. The Kelvin scale, essential for thermodynamics and chemistry, requires precise conversion from Celsius or Fahrenheit. Similar to how binary converters help with digital data transformation, our temperature converter ensures scientific accuracy.

Cooking and Baking Precision

International recipes often specify oven temperatures in different units. European recipes typically use Celsius while American cookbooks use Fahrenheit. Converting incorrectly can ruin dishes—the difference between 180°C and 180°F is substantial (356°F versus 180°F). Just as precision matters with unit converters, accurate temperature conversion is crucial in culinary applications.

Industrial and Engineering Applications

Manufacturing processes, HVAC systems, and engineering specifications require exact temperature conversions. Whether you're calibrating equipment, reading technical specifications, or ensuring workplace safety compliance, precise temperature conversion prevents costly errors and safety hazards.

Supported Temperature Scales

Our comprehensive temperature converter supports all major temperature measurement systems:

Celsius (°C)

The most widely used temperature scale globally, Celsius bases its measurements on water's freezing point (0°C) and boiling point (100°C) at standard atmospheric pressure. Named after Swedish astronomer Anders Celsius, this metric scale is the standard in most countries and scientific contexts outside the United States.

Fahrenheit (°F)

Predominantly used in the United States, Bahamas, Belize, and Cayman Islands, the Fahrenheit scale sets water's freezing point at 32°F and boiling point at 212°F. German physicist Daniel Gabriel Fahrenheit developed this scale in 1724, and it remains deeply embedded in American culture and infrastructure.

Kelvin (K)

The SI base unit for thermodynamic temperature, Kelvin is essential in physics, chemistry, and engineering. Unlike Celsius and Fahrenheit, Kelvin uses absolute zero (-273.15°C) as its starting point—the theoretical temperature at which all molecular motion ceases. Scientists prefer Kelvin for calculations involving thermodynamic equations and gas laws.

Rankine (°R)

Used primarily in engineering fields in the United States, the Rankine scale is to Fahrenheit what Kelvin is to Celsius—an absolute temperature scale. It starts at absolute zero but uses Fahrenheit-sized degrees, making it useful in specific thermodynamic calculations.

Réaumur (°Ré)

Though largely historical, the Réaumur scale was once popular in Europe, particularly in France and parts of Germany. It sets water's freezing point at 0°Ré and boiling point at 80°Ré. While rarely used today, it occasionally appears in historical scientific documents.

How to Use Our Temperature Converter

Converting temperatures with our tool is remarkably simple:

Step 1: Select Your Input Scale

Choose the temperature scale you're converting FROM using the dropdown menu. Options include Celsius, Fahrenheit, Kelvin, Rankine, and Réaumur.

Step 2: Enter Your Temperature Value

Type the numerical temperature value into the input field. Our converter accepts positive and negative numbers, including decimals for precise measurements.

Step 3: Choose Your Output Scale

Select the temperature scale you want to convert TO. You can convert between any combination of supported scales instantly.

Step 4: Get Instant Results

Our converter calculates and displays the converted temperature immediately. The result updates automatically as you type, providing real-time conversions without clicking additional buttons.

Step 5: Convert Multiple Values (Optional)

Need to convert several temperatures? Simply change your input value, and the conversion updates instantly. You can also switch between different output scales to see your temperature in multiple formats simultaneously.

Temperature Conversion Formulas Explained

Understanding the mathematics behind temperature conversion helps verify results and builds scientific literacy:

Celsius to Fahrenheit

Formula: °F = (°C × 9/5) + 32

Example: Converting 25°C to Fahrenheit

• (25 × 9/5) + 32 = (25 × 1.8) + 32 = 45 + 32 = 77°F

Fahrenheit to Celsius

Formula: °C = (°F - 32) × 5/9

Example: Converting 77°F to Celsius

• (77 - 32) × 5/9 = 45 × 5/9 = 45 × 0.5556 = 25°C

Celsius to Kelvin

Formula: K = °C + 273.15

Example: Converting 25°C to Kelvin

• 25 + 273.15 = 298.15 K

Kelvin to Celsius

Formula: °C = K - 273.15

Example: Converting 298.15 K to Celsius

• 298.15 - 273.15 = 25°C

Fahrenheit to Kelvin

Formula: K = (°F - 32) × 5/9 + 273.15

Example: Converting 77°F to Kelvin

• (77 - 32) × 5/9 + 273.15 = 25 + 273.15 = 298.15 K

Kelvin to Fahrenheit

Formula: °F = (K - 273.15) × 9/5 + 32

Example: Converting 298.15 K to Fahrenheit

• (298.15 - 273.15) × 9/5 + 32 = 25 × 1.8 + 32 = 77°F

Common Temperature Reference Points

Understanding key temperature benchmarks helps contextualize conversions:

These reference points appear frequently in daily life, making them useful for mental estimation and verification of conversion results.

Advanced Features of Our Temperature Converter

Real-Time Conversion

Unlike basic calculators requiring multiple steps, our converter provides instant results as you type. This real-time feedback streamlines workflow, particularly when converting multiple values or exploring temperature ranges.

High Precision Calculations

Our converter maintains accuracy to multiple decimal places, essential for scientific applications where precision matters. Whether you need percentage calculations or temperature conversions, accuracy is guaranteed.

Mobile-Responsive Design

Access our temperature converter from any device—desktop, tablet, or smartphone. The mobile-friendly interface adapts seamlessly to different screen sizes, ensuring usability wherever you work.

No Installation Required

As a web-based tool, our temperature converter requires no downloads, installations, or software updates. Simply visit the page and start converting immediately, much like our other online calculators.

Completely Free

Unlike premium conversion apps with subscription fees or limited free trials, our temperature converter remains free indefinitely with no hidden charges, ads, or usage restrictions.

Privacy-Focused

We don't collect, store, or track your conversion data. All calculations happen locally in your browser, ensuring complete privacy. Similar to how we approach password generation, user privacy is paramount.

Temperature Conversion for Different Industries

Healthcare and Medicine

Medical professionals must accurately interpret body temperature readings from different thermometer types and scales. Core body temperature monitoring during surgeries, medication storage temperature requirements, and vaccine transport all demand precise temperature conversions.

Meteorology and Climate Science

Weather forecasters, climatologists, and atmospheric scientists work with temperature data from global sources using different scales. Climate models, weather predictions, and historical temperature analysis require standardized conversions, much like how data analysis tools require consistent formatting.

Food Service and Hospitality

Restaurants, catering services, and food manufacturers must comply with food safety regulations specifying precise storage and cooking temperatures. International culinary education programs and recipe development require fluent conversion between temperature scales.

HVAC and Climate Control

Heating, ventilation, and air conditioning professionals design and maintain systems using various temperature specifications. Building codes, equipment specifications, and energy efficiency calculations often mix temperature scales, necessitating quick conversion.

Automotive Engineering

Engine operating temperatures, coolant specifications, and climate control systems involve temperature monitoring and conversion. International automotive standards and component specifications frequently require translation between measurement systems.

Chemical and Pharmaceutical Manufacturing

Chemical reactions, pharmaceutical production, and material processing depend on precise temperature control. Safety data sheets (SDS) may list critical temperatures in different scales, making conversion essential for safe operations.

Temperature Conversion Tips and Best Practices

1. Verify Critical Conversions

For applications where accuracy is critical—medical dosing, industrial processes, scientific experiments—double-check conversions using multiple methods or tools. Our converter provides reliable results, but verification adds an extra safety layer.

2. Understand Negative Temperatures

Negative temperatures can confuse conversions, especially between Celsius and Fahrenheit. Remember that -40°C equals -40°F, the only point where both scales align. Below this point, Fahrenheit produces larger negative numbers than Celsius.

3. Consider Significant Figures

In scientific contexts, maintaining appropriate significant figures matters. If your original measurement has three significant figures, your conversion should reflect similar precision. Learn more about precision in calculations.

4. Use Kelvin for Calculations

When performing thermodynamic calculations, conversions, or scientific formulas, prefer Kelvin to avoid common mathematical errors associated with Celsius and Fahrenheit's arbitrary zero points.

5. Memorize Key Conversions

Learning a few key conversion benchmarks helps with mental estimation:

• 0°C = 32°F (water freezing)
• 100°C = 212°F (water boiling)
• -40°C = -40°F (unique alignment point)
• 37°C = 98.6°F (body temperature)

6. Be Aware of Context

Temperature "feels like" indexes, wind chill, and heat index modify perceived temperature. These adjusted values require context-specific understanding beyond simple unit conversion.

Common Temperature Conversion Mistakes to Avoid

Forgetting to Add/Subtract 273.15

When converting between Celsius and Kelvin, a simple addition or subtraction of 273.15 is required. Forgetting this offset creates significant errors in scientific calculations.

Reversing the Formula

Applying the Celsius-to-Fahrenheit formula when converting Fahrenheit-to-Celsius (or vice versa) produces wildly incorrect results. Always verify which direction you're converting.

Neglecting the Order of Operations

The Fahrenheit conversion formula requires specific operation order: multiply first, then add (or subtract first, then multiply when reversing). Incorrect operation sequencing yields wrong answers.

Assuming Linear Relationships

Beginners sometimes assume doubling Celsius doubles Fahrenheit, but these scales don't have a linear relationship passing through zero. Only ratios at absolute zero (Kelvin) scale linearly.

Ignoring Decimal Precision

Rounding too early in multi-step conversions accumulates error. Maintain full precision until the final result, then round as appropriate for your application.

Mixing Up Kelvin and Celsius

Since Kelvin doesn't use degree symbols (K, not °K), confusion arises when reading scientific papers or equipment specifications. Always verify which scale is referenced.

SEO and Temperature Conversion Content

Creating content around temperature topics benefits from accurate conversion tools. Weather blogs, cooking websites, scientific publications, and travel guides all need reliable temperature references. Using our converter ensures content quality while maintaining factual accuracy.

When writing SEO-optimized content, incorporating temperature conversions improves user experience for international audiences. Providing both Celsius and Fahrenheit readings in travel guides, recipe blogs, or scientific articles enhances accessibility and engagement metrics.

Integration with Other Conversion Tools

Temperature conversion often accompanies other unit conversions in professional contexts:

• Length Conversion: Recipe ingredient measurements may require both length conversion and temperature conversion
• Weight Conversion: Cooking and chemistry both need weight conversion alongside temperature data
• Volume Conversion: Liquid measurements in recipes require volume conversion paired with oven temperatures
• Time Conversion: Cooking times may need time conversion when adapting international recipes
• Power Conversion: Appliance specifications might require power conversion along with operating temperatures

Temperature Conversion for Students and Educators

Educational Value

Understanding temperature scales and conversions teaches fundamental scientific concepts including:

• Metric vs. imperial measurement systems
• Absolute zero and thermodynamic principles
• Linear and offset scale relationships
• Mathematical formula application
• Unit analysis and dimensional consistency

Homework and Exam Preparation

Students frequently encounter temperature conversion problems in physics, chemistry, earth science, and mathematics courses. Our converter helps verify homework answers and builds conceptual understanding, similar to how educational calculators support learning.

Teaching Resources

Educators can use our temperature converter as a teaching aid, demonstrating concepts interactively rather than relying solely on textbook tables. Real-time conversion visualization helps students grasp the relationships between different temperature scales.

Temperature Conversion for International Communication

Business and Commerce

International business transactions often involve temperature-sensitive products or processes. Shipping frozen goods, specifying manufacturing conditions, or establishing quality control standards requires clear temperature communication across borders.

Technical Documentation

Equipment manuals, safety data sheets, and technical specifications from international manufacturers may use different temperature scales. Converting these specifications ensures proper equipment operation and workplace safety.

Scientific Collaboration

Research collaborations spanning multiple countries require consistent temperature reporting. Publishing in international journals often requires conversion to specific temperature scales per journal guidelines.

Language and Localization

When localizing websites, applications, or documentation for different markets, temperature displays must adapt to regional conventions. Just as content might need translation, temperature values need conversion for local audiences.

Mobile Temperature Conversion

With smartphones ubiquitous, mobile-accessible temperature conversion is essential. Our mobile-friendly tool ensures you can convert temperatures anywhere:

• Travel: Convert weather forecasts while abroad
• Shopping: Check appliance specifications in stores
• Cooking: Convert recipe temperatures in real-time while preparing meals
• Healthcare: Verify thermometer readings on-the-go
• Education: Quick reference during classes or study sessions

Optimizing Your Workflow with Temperature Conversion

Save Common Conversions

If you frequently convert specific temperatures, keep a reference list handy. Common cooking temperatures (325°F, 350°F, 375°F, 400°F) and their Celsius equivalents save time.

Batch Conversions

When converting multiple temperatures, organize them in a table format. This systematic approach prevents errors and provides organized documentation for reports or publications.

Integrate with Other Tools

Combine temperature conversion with other productivity tools in your workflow. Spreadsheets, note-taking apps, and documentation software can reference converted temperatures efficiently.

Create Templates

For recurring temperature conversion needs—weekly weather reports, quality control logs, recipe development—create templates with pre-converted values to streamline repetitive tasks.

Temperature Scales Throughout History

Ancient Temperature Measurement

Before standardized scales, societies used qualitative descriptions or reference points like body temperature. The development of thermometers in the 17th century enabled quantitative temperature measurement, though early thermometers lacked standardized scales.

Development of Modern Scales

• 1724: Fahrenheit proposes his temperature scale
• 1742: Celsius develops the centigrade scale (later renamed Celsius)
• 1848: Lord Kelvin proposes absolute temperature scale
• 1859: Rankine develops absolute Fahrenheit-based scale

Global Standardization

The 20th century saw gradual global adoption of Celsius for general use and Kelvin for scientific applications. The United States remains the notable exception, continuing Fahrenheit for everyday temperatures.

Future of Temperature Measurement

Digital Temperature Sensors

Modern digital sensors provide instant, accurate temperature readings in multiple scales simultaneously. IoT devices, smart home systems, and industrial monitors eliminate manual conversion needs in many applications.

Standardization Efforts

While complete global standardization seems unlikely given cultural entrenchment, digital technology makes conversion increasingly transparent. Many modern devices display multiple temperature scales simultaneously.

Climate Change Monitoring

Accurate global temperature tracking for climate science requires rigorous conversion protocols ensuring data consistency across measurement systems and time periods. This critical application demands the precision our converter provides.

Complementary Tools for Complete Unit Conversion

Beyond temperature, comprehensive unit conversion covers many measurement categories:

• Area calculations: Area converter for land, surface, and space measurements
• Pressure conversions: Pressure converter for weather, engineering, and scientific applications
• Speed calculations: Speed converter for vehicle velocities and wind speeds
• Energy conversions: Electric/voltage measurements via electric/voltage converter
• Torque specifications: Torque converter for automotive and engineering applications

Why Choose Our Temperature Converter?

Unmatched Accuracy

Our conversion algorithms follow internationally recognized formulas, ensuring results match scientific standards and official conversion tables.

Lightning-Fast Performance

Server-side processing and optimized code deliver instant conversions regardless of device or internet speed. Our page load optimization ensures smooth performance.

User-Friendly Interface

Clean, intuitive design eliminates confusion. No complicated menus, hidden settings, or unclear instructions—just straightforward temperature conversion.

Always Available

24/7 accessibility means you can convert temperatures whenever needed, from anywhere in the world. No maintenance windows or downtime interruptions.

Regular Updates

We continuously monitor and update our tools to maintain accuracy, fix any issues, and incorporate user feedback for improvements.

Comprehensive Support

Though the tool is self-explanatory, this detailed guide provides context, formulas, and applications to maximize value.

Temperature Conversion Best Practices for Content Creators

Blog Posts and Articles

When writing content for international audiences, always provide temperature values in both Celsius and Fahrenheit initially, then use your target audience's preferred scale subsequently. This approach, similar to optimizing content for SEO, improves accessibility.

Recipe Development

Food bloggers and cookbook authors should list oven temperatures in both scales with the primary scale bolded or listed first based on target audience location.

Travel Content

Weather descriptions in travel guides benefit from dual-scale reporting: "The average July temperature is 28°C (82°F)" provides clarity for all readers.

Scientific Writing

Academic papers typically require Kelvin or Celsius for primary measurements with conversions in parentheses where appropriate. Follow journal-specific style guides carefully.

Troubleshooting Temperature Conversion Issues

Unexpected Negative Results

If conversions produce unexpected negative numbers, verify your input scale selection. Converting -10°C to Fahrenheit yields 14°F (positive), while converting -10°F to Celsius yields -23°C (more negative).

Results Seem Wrong

Cross-reference with known conversion points: water freezing (0°C = 32°F) and boiling (100°C = 212°F). If your results violate these fundamental relationships, recheck inputs.

Decimal Precision Questions

For everyday use, rounding to one decimal place suffices (25.0°C). Scientific applications may require more precision (298.15 K). Adjust rounding based on context.

Formula Confusion

If manually calculating conversions produces different results than our tool, verify operation order. Parentheses in formulas indicate which calculations happen first.

Accessibility and Inclusive Design

Our temperature converter follows web accessibility guidelines ensuring usability for people with various abilities:

• Screen reader compatibility for visually impaired users
• Keyboard navigation for users who cannot use a mouse
• High contrast display options for users with vision difficulties
• Clear, simple language in instructions and labels
• Responsive design accommodating various assistive technologies

Environmental Impact of Temperature Monitoring

Accurate temperature conversion supports environmental initiatives:

Energy Efficiency

Properly converting HVAC specifications helps optimize heating and cooling systems, reducing energy waste and carbon emissions.

Climate Data Analysis

Consistent temperature conversion enables accurate climate trend analysis, supporting policy decisions and public awareness about environmental changes.

Food Waste Reduction

Proper temperature conversion in food storage and transportation reduces spoilage, contributing to sustainability goals.

Getting Started with Temperature Conversion Today

Ready to simplify your temperature conversions? Our free, fast, and accurate temperature converter eliminates guesswork and calculation errors. Whether you're a student, professional, traveler, or curious learner, instant access to reliable conversions is just one click away.

Explore our complete suite of conversion tools and calculators designed to make your work easier, more accurate, and more efficient. From technical SEO optimization to everyday calculations, we provide the tools you need to succeed.

Frequently Asked Questions About Temperature Conversion

1. What is the fastest way to convert Celsius to Fahrenheit?

The fastest method is using an online temperature converter tool like ours, which provides instant results. For mental approximation, multiply Celsius by 2 and add 30 (though this gives a rough estimate, not precise conversion). The exact formula is (°C × 9/5) + 32 = °F.

2. Why do the United States and most other countries use different temperature scales?

The United States adopted Fahrenheit before international metric standardization. While most countries switched to Celsius during the 20th-century metrication movement, the U.S. maintained Fahrenheit due to cultural inertia, infrastructure investments, and public familiarity. The cost and complexity of converting millions of thermostats, weather stations, and public understanding creates resistance to change.

3. Which temperature scale is most accurate?

All temperature scales are equally accurate—they're simply different reference systems. Kelvin is preferred in scientific contexts because it starts at absolute zero, eliminating negative numbers in thermodynamic equations. However, Celsius and Fahrenheit are equally valid for everyday temperature measurement when properly calibrated.

4. Can temperature conversion tools make mistakes?

Reputable online converters like ours use tested algorithms and follow standard conversion formulas, making errors extremely rare. However, user input errors (entering wrong values or selecting wrong scales) can cause apparent mistakes. Always verify your inputs match your intentions.

5. How do I convert room temperature between different scales?

Typical room temperature is approximately 20-22°C, 68-72°F, or 293-295 K. Use our converter by entering your room temperature value and selecting your current scale, then choose the output scale you need. The conversion happens instantly.

6. What is absolute zero in all temperature scales?

Absolute zero—the lowest theoretical temperature where molecular motion stops—is -273.15°C, -459.67°F, 0 K, and 0°R. This represents the complete absence of thermal energy and cannot be reached in practice due to quantum mechanical limitations.

7. Why doesn't Kelvin use degree symbols?

Kelvin is an absolute temperature scale and an SI base unit, so it's written as "K" without the degree symbol (°). This distinguishes it from Celsius (°C) and Fahrenheit (°F), which are relative scales with arbitrary zero points.

8. How accurate should temperature conversions be for cooking?

For most home cooking, rounding to the nearest 5-10 degrees is sufficient. Professional baking or delicate dishes may require precision to ±5°F (±3°C). Our converter provides precise values, but you can round based on your needs and oven accuracy.

9. Do digital thermometers automatically convert temperatures?

Many modern digital thermometers feature switchable display modes showing temperatures in Celsius or Fahrenheit. However, they measure in one scale and convert electronically using the same formulas our tool uses. Cheaper thermometers may only display one scale.

10. What temperature scale do scientists use globally?

Scientists universally use Kelvin for thermodynamic calculations and most physics applications. Celsius is commonly used for chemistry, biology, and general scientific communication. Fahrenheit rarely appears in international scientific literature except when referencing U.S.-specific data.

11. How do I convert negative temperatures correctly?

Negative temperature conversion follows the same formulas as positive temperatures. Simply use the negative value in the conversion formula. For example, -10°C converts to 14°F using (−10 × 9/5) + 32 = −18 + 32 = 14°F. Our tool handles negative numbers automatically.

12. Is there a temperature where Celsius and Fahrenheit are equal?

Yes, at -40 degrees, Celsius and Fahrenheit are numerically equal: -40°C = -40°F. This is the only point where both scales intersect. You can verify this by plugging -40 into the conversion formulas.

13. Why do weather apps sometimes show different temperature values?

Differences in weather apps may result from measurement location variations, update timing, or whether they display "actual temperature" versus "feels like" temperature (which factors in humidity and wind). Temperature scale mixups (showing Celsius when you expected Fahrenheit) also cause confusion.

14. Can I use temperature converters for scientific research?

Yes, our temperature converter provides precision suitable for most scientific applications. However, for publication-level research requiring extreme precision or specialized scales, verify conversions meet your field's specific standards and significant figure requirements.

15. What's the difference between Celsius and Centigrade?

Celsius and Centigrade refer to the same temperature scale. "Centigrade" (meaning "hundred steps") was the original name, but it was officially renamed "Celsius" in 1948 to honor astronomer Anders Celsius. Modern usage exclusively uses "Celsius."

16. How do I convert temperatures for international recipe ingredients?

Recipe temperature conversion is straightforward: use our tool to convert the specified oven temperature from the original scale to your oven's scale. Round to the nearest 5 or 10 degrees for practical oven dial settings. Remember that baking times may need slight adjustments based on your oven's characteristics.

17. Are there temperature scales other than Celsius, Fahrenheit, and Kelvin?

Yes, less common scales include Rankine (absolute scale using Fahrenheit-sized degrees), Réaumur (historical European scale), Delisle, Newton, and Rømer scales. These are rarely used today except in historical contexts or specialized applications. Our converter focuses on the most practical modern scales.

18. How does temperature conversion affect product specifications?

Product specifications, especially for electronics, chemicals, and machinery, often list operating temperature ranges. Converting these specifications correctly ensures safe operation, warranty compliance, and optimal performance. Misunderstanding temperature specifications can cause equipment damage or safety hazards.

19. Can I convert temperatures on my smartphone easily?

Yes, our temperature converter is fully mobile-responsive and works perfectly on smartphones and tablets. Simply visit our website from any mobile browser—no app installation required. The interface adapts to your screen size for easy input and reading.

20. Why do some conversion calculators give slightly different results?

Minor differences in conversion results typically stem from rounding at different stages of calculation. Our converter maintains full precision throughout calculations before displaying results, ensuring maximum accuracy. Differences of 0.01-0.1 degrees are usually insignificant for practical purposes, while larger discrepancies indicate errors in formulas or inputs.

Start Converting Temperatures Now

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