Pascal Second Converter
Convert Pascal Second to Square Meter Hour and more • 56 conversions
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Unit Explanations
Pascal SecondPa·s
Source UnitThe pascal second (Pa·s) is the SI unit for dynamic viscosity, representing the internal friction of fluids. It quantifies the resistance of a fluid to flow when an external force is applied. A fluid with a dynamic viscosity of one pascal second will flow under a shear stress of one pascal at a rate of one meter per second. It is a derived unit, meaning it is defined in terms of the base SI units: kilograms (kg), meters (m), and seconds (s). The pascal second is critical in fluid dynamics, engineering, and various scientific disciplines where fluid behavior is studied.
Current Use
Today, the pascal second is widely used in various industries including chemical engineering, food processing, and materials science to characterize the flow properties of fluids. It is essential in applications involving lubrication, mixing, and fluid transport where understanding viscosity is crucial for efficiency and safety.
Fun Fact
The pascal second is named after Blaise Pascal, who also has the unit of pressure named after him.
Square Meter Hourm²·h
Target UnitThe square meter hour (m²·h) is a derived unit of measurement in the field of viscosity, specifically characterizing the flow of fluids. It quantifies the volume of fluid that flows through a surface area of one square meter in one hour. This unit is particularly useful in engineering and fluid dynamics, where understanding the relationship between area, time, and fluid flow is essential for designing systems such as pipelines and reactors. The square meter hour highlights the aspect of time in fluid movement, which is critical in processes involving continuous flow, such as in chemical manufacturing.
Current Use
Today, the square meter hour is widely used in various industries including chemical manufacturing, environmental engineering, and oil and gas extraction. It serves as a crucial metric in processes that involve fluid transport and behavior analysis, enabling engineers and scientists to design systems that optimize performance and safety. The square meter hour is also essential in research settings, where accurate measurements of fluid flow are necessary for experimental setups and data analysis.
Fun Fact
The square meter hour is not commonly used outside of specific engineering fields, making it a niche unit of measurement.
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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.
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Pascal Second
viscosity • Non-SI
Definition
The pascal second (Pa·s) is the SI unit for dynamic viscosity, representing the internal friction of fluids. It quantifies the resistance of a fluid to flow when an external force is applied. A fluid with a dynamic viscosity of one pascal second will flow under a shear stress of one pascal at a rate of one meter per second. It is a derived unit, meaning it is defined in terms of the base SI units: kilograms (kg), meters (m), and seconds (s). The pascal second is critical in fluid dynamics, engineering, and various scientific disciplines where fluid behavior is studied.
History & Origin
The pascal second was introduced as part of the metric system in the late 20th century, named after Blaise Pascal, a French mathematician and physicist known for his contributions to fluid mechanics and pressure. The unit was formalized in 1971 during the 14th General Conference on Weights and Measures, which aimed to standardize units for scientific accuracy and international communication.
Etymology: The term 'pascal' is derived from the name of Blaise Pascal, while 'second' refers to the time unit in the SI system.
Current Use
Today, the pascal second is widely used in various industries including chemical engineering, food processing, and materials science to characterize the flow properties of fluids. It is essential in applications involving lubrication, mixing, and fluid transport where understanding viscosity is crucial for efficiency and safety.
💡 Fun Facts
- •The pascal second is named after Blaise Pascal, who also has the unit of pressure named after him.
- •Dynamic viscosity can change with temperature; for example, heating honey makes it flow more easily.
- •The viscosity of air is significantly lower than that of most liquids, making it easier for objects to move through it.
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Square Meter Hour
viscosity • Non-SI
Definition
The square meter hour (m²·h) is a derived unit of measurement in the field of viscosity, specifically characterizing the flow of fluids. It quantifies the volume of fluid that flows through a surface area of one square meter in one hour. This unit is particularly useful in engineering and fluid dynamics, where understanding the relationship between area, time, and fluid flow is essential for designing systems such as pipelines and reactors. The square meter hour highlights the aspect of time in fluid movement, which is critical in processes involving continuous flow, such as in chemical manufacturing.
History & Origin
The square meter hour originated from the need to quantify fluid dynamics in engineering and physics. Its development can be traced back to the early 20th century, when scientists began to explore complex fluid behaviors and the effects of viscosity on flow rates. As industries grew and the demand for precise measurements increased, standard units like the square meter hour became essential for ensuring safety and efficiency in various applications.
Etymology: The term 'square meter' derives from the Greek word 'metron,' meaning 'measure,' while 'hour' comes from the Latin 'hora,' denoting a division of time. Together, they describe a measurement that relates both area and time in the context of fluid dynamics.
Current Use
Today, the square meter hour is widely used in various industries including chemical manufacturing, environmental engineering, and oil and gas extraction. It serves as a crucial metric in processes that involve fluid transport and behavior analysis, enabling engineers and scientists to design systems that optimize performance and safety. The square meter hour is also essential in research settings, where accurate measurements of fluid flow are necessary for experimental setups and data analysis.
💡 Fun Facts
- •The square meter hour is not commonly used outside of specific engineering fields, making it a niche unit of measurement.
- •In certain applications, the square meter hour can be converted to liters per second for more common fluid flow assessments.
- •The historical development of viscosity measurements has significantly influenced industrial standards and practices.
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🔗 Related Units
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Frequently Asked Questions
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