Flame Converter
Convert Flame to Lux and more • 37 conversions
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Unit Explanations
Flamefl
Source UnitA flame is a visible, gaseous part of a fire, characterized by the emission of light, heat, and the combustion of materials. It occurs when a combustible material, such as wood or gas, reacts with an oxidant like oxygen, resulting in a chemical reaction that produces heat and light. The flame's temperature varies significantly based on the material and conditions, typically ranging from 600 to 1,200 degrees Celsius. Flames can exist in different forms, including laminar and turbulent, and their color can indicate temperature and chemical composition. Understanding flames is essential in various fields, including safety, engineering, and environmental science.
Current Use
Flame is widely utilized across various industries and applications due to its ability to produce heat and light. In the energy sector, flames are integral to combustion processes in power generation, such as in gas-fired power plants. In manufacturing, flames are used for welding and cutting metals, enhancing productivity and precision. The culinary industry employs flames in cooking techniques, from grilling to flambéing, adding flavor and texture to dishes. In scientific research, flames serve as a tool for studying combustion reactions, material properties, and environmental impacts. Additionally, flames are used in safety equipment, such as flares and emergency lighting, providing illumination in critical situations. Countries like the United States, Germany, and Japan extensively utilize flames in these industrial contexts, ensuring operational efficiency and safety.
Fun Fact
Flames can appear in various colors, depending on the temperature and materials burned.
Luxlx
Target UnitThe lux (symbol: lx) is the SI unit of illuminance and luminous emittance, defined as one lumen per square meter. This unit quantifies the amount of visible light that illuminates a surface area, providing an essential measure for lighting design and assessment. The lux is integral to various fields, including photography, cinematography, and interior design, as it helps determine the adequacy of lighting in spaces. A well-lit environment typically requires illuminance levels ranging from 100 to 1000 lux, depending on the activity being performed. Thus, the lux not only conveys the intensity of light but also directly correlates with human visual comfort and productivity.
Current Use
The lux is widely used in various industries to ensure that lighting conditions meet specific standards for safety, comfort, and productivity. In architectural lighting design, lux levels are meticulously calculated to optimize illumination in spaces such as offices, schools, and hospitals. The film and photography industries rely on lux measurements to ensure proper lighting conditions for shoots, while horticulture utilizes lux for assessing light requirements for plant growth. In the automotive industry, lux is crucial for assessing headlight brightness and visibility. Countries around the world, including the United States, Germany, and Japan, apply lux standards in building codes and regulations to ensure adequate lighting in public and private spaces. Regulatory bodies often specify minimum lux levels for various environments, ensuring compliance with safety and quality standards.
Fun Fact
The human eye can perceive light levels ranging from about 0.1 lux (moonlight) to over 100,000 lux (bright sunlight).
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📐Conversion Formula
= × 1.00000How to Convert
To convert to , multiply the value by 1.00000. This conversion factor represents the ratio between these two units.
Quick Examples
💡 Pro Tip: For the reverse conversion ( → ), divide by the conversion factor instead of multiplying.
Flame
illumination • Non-SI
Definition
A flame is a visible, gaseous part of a fire, characterized by the emission of light, heat, and the combustion of materials. It occurs when a combustible material, such as wood or gas, reacts with an oxidant like oxygen, resulting in a chemical reaction that produces heat and light. The flame's temperature varies significantly based on the material and conditions, typically ranging from 600 to 1,200 degrees Celsius. Flames can exist in different forms, including laminar and turbulent, and their color can indicate temperature and chemical composition. Understanding flames is essential in various fields, including safety, engineering, and environmental science.
History & Origin
The concept of flame can be traced back to ancient civilizations, where fire was essential for survival and development. Early humans discovered flame when they harnessed fire for cooking and warmth. The understanding of flame's properties evolved over centuries, leading to advancements in metallurgy and energy production. The earliest recorded uses of flame in metallurgy date back to around 3500 BC in Mesopotamia, where flames were pivotal in smelting metals. As civilizations progressed, so did the applications of flame, from simple torches to complex combustion engines, showcasing humanity's ingenuity in utilizing fire.
Etymology: The word 'flame' originates from the Latin 'flamma', meaning 'a blaze' or 'a fire'.
Current Use
Flame is widely utilized across various industries and applications due to its ability to produce heat and light. In the energy sector, flames are integral to combustion processes in power generation, such as in gas-fired power plants. In manufacturing, flames are used for welding and cutting metals, enhancing productivity and precision. The culinary industry employs flames in cooking techniques, from grilling to flambéing, adding flavor and texture to dishes. In scientific research, flames serve as a tool for studying combustion reactions, material properties, and environmental impacts. Additionally, flames are used in safety equipment, such as flares and emergency lighting, providing illumination in critical situations. Countries like the United States, Germany, and Japan extensively utilize flames in these industrial contexts, ensuring operational efficiency and safety.
💡 Fun Facts
- •Flames can appear in various colors, depending on the temperature and materials burned.
- •Blue flames indicate complete combustion, while yellow flames signify incomplete combustion.
- •The hottest part of a flame is typically found at its tip.
📏 Real-World Examples
🔗 Related Units
Lux
illumination • SI Unit
Definition
The lux (symbol: lx) is the SI unit of illuminance and luminous emittance, defined as one lumen per square meter. This unit quantifies the amount of visible light that illuminates a surface area, providing an essential measure for lighting design and assessment. The lux is integral to various fields, including photography, cinematography, and interior design, as it helps determine the adequacy of lighting in spaces. A well-lit environment typically requires illuminance levels ranging from 100 to 1000 lux, depending on the activity being performed. Thus, the lux not only conveys the intensity of light but also directly correlates with human visual comfort and productivity.
History & Origin
The concept of measuring light dates back to ancient civilizations, but the formal introduction of the lux occurred in the 20th century. The unit was officially defined in 1948 during the International Conference on Weights and Measures in Paris, where it was adopted as part of the International System of Units (SI). Before the lux, illuminance was often measured using different units like foot-candles, which were less standardized. The establishment of the lux aimed to create a uniform measurement standard for scientific and practical applications in lighting.
Etymology: The term 'lux' comes from the Latin word for 'light'.
Current Use
The lux is widely used in various industries to ensure that lighting conditions meet specific standards for safety, comfort, and productivity. In architectural lighting design, lux levels are meticulously calculated to optimize illumination in spaces such as offices, schools, and hospitals. The film and photography industries rely on lux measurements to ensure proper lighting conditions for shoots, while horticulture utilizes lux for assessing light requirements for plant growth. In the automotive industry, lux is crucial for assessing headlight brightness and visibility. Countries around the world, including the United States, Germany, and Japan, apply lux standards in building codes and regulations to ensure adequate lighting in public and private spaces. Regulatory bodies often specify minimum lux levels for various environments, ensuring compliance with safety and quality standards.
💡 Fun Facts
- •The human eye can perceive light levels ranging from about 0.1 lux (moonlight) to over 100,000 lux (bright sunlight).
- •The term 'foot-candle', an older unit of illuminance, is equivalent to approximately 10.764 lux.
- •In photography, achieving the right lux levels can significantly impact the quality of images captured.
📏 Real-World Examples
🔗 Related Units
Related Illumination Conversions
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Frequently Asked Questions
How do I convert to ?▼
To convert to , multiply your value by 1. For example, 10 equals 10 .
What is the formula for to conversion?▼
The formula is: = × 1. This conversion factor is based on international standards.
Is this to converter accurate?▼
Yes! MetricConv uses internationally standardized conversion factors from organizations like NIST and ISO. Our calculations support up to 15 decimal places of precision, making it suitable for scientific, engineering, and everyday calculations.
Can I convert back to ?▼
Absolutely! You can use the swap button (⇄) in the converter above to reverse the conversion direction, or visit our to converter.