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Discover the seamless conversion of volume flow rate from cubic centimeters per second to mass flow rate in kilograms per hour for gasoline at 15.5°C. Developed by Newtum, this tool piques curiosity and offers accuracy, ensuring you are equipped with the right data. Dive deeper to explore its functionalities.
Cubic Centimeter/second (cm³/s) is a unit of volumetric flow rate. It signifies the volume of fluid passing through a point or area in a system per second, measured in cubic centimeters. This unit is commonly used in various fields, such as fluid dynamics, to quantify the rate at which a fluid moves. Understanding this measure is essential for applications involving the transfer of liquids or gases, ensuring precise control over flow processes.
Definition of Kilogram/hourKilogram/hour (kg/h) is a unit of mass flow rate. It indicates the mass of a substance passing through a given point or system per hour, measured in kilograms. This unit is particularly relevant in industries where the continuous transfer of materials is critical, such as in chemical processing or fuel consumption analysis. By quantifying the flow in these terms, it ensures efficient management and optimization of resource usage.
| Cubic Centimeters/second (cm³/s) | Kilograms/hour (kg/h) |
|---|---|
| 0.1 cm³/s | 0.36 kg/h |
| 0.5 cm³/s | 1.8 kg/h |
| 1 cm³/s | 3.6 kg/h |
| 2 cm³/s | 7.2 kg/h |
| 3 cm³/s | 10.8 kg/h |
| 4 cm³/s | 14.4 kg/h |
| 5 cm³/s | 18 kg/h |
| 6 cm³/s | 21.6 kg/h |
| 7 cm³/s | 25.2 kg/h |
| 8 cm³/s | 28.8 kg/h |
1 cm³/s = 3.6 kg/h
1 kg/h = 0.2778 cm³/s
Example 1:
convert 2 cm³/s to kg/h:
2 cm³/s = 2 × 3.6 kg/h = 7.2 kg/h
Example 2:
convert 1.5 cm³/s to kg/h:
1.5 cm³/s = 1.5 × 3.6 kg/h = 5.4 kg/h
The conversion of cubic centimeters per second to kilograms per hour, especially for gasoline at 15.5°C, has roots in the need for precision in fuel measurement and distribution. Historically, as industries grew, understanding fluid dynamics became crucial. This specific conversion emerged to cater to the automotive and petroleum sectors, ensuring accurate fuel flow and consumption analysis. Today, it's a fundamental tool for engineers and technicians in optimizing performance and efficiency.
Understanding the conversion from cubic centimeters per second to kilograms per hour for gasoline at 15.5°C is vital in various industries. This converter offers an efficient solution, enabling precise and accurate measurements crucial for optimized performance in real-world scenarios.
Example 1: Convert 3 cm³/s to kg/h. Calculation: 3 cm³/s × 3.6 = 10.8 kg/h. Thus, 3 cm³/s is equal to 10.8 kg/h.
Example 2: Convert 4.5 cm³/s to kg/h. Calculation: 4.5 cm³/s × 3.6 = 16.2 kg/h. Therefore, 4.5 cm³/s equals 16.2 kg/h.
Q1: What is the formula for converting cm³/s to kg/h?
A: Multiply the value in cm³/s by 3.6 to convert it to kg/h for gasoline at 15.5°C.
Q2: Can this converter be used for other fluids?
A: This tool is specifically calibrated for gasoline at 15.5°C. For other fluids, different conversion factors are needed.
Q3: How accurate is the conversion?
A: The conversion is precise and adheres to standard fluid dynamics calculations, ensuring reliability for gasoline at specified conditions.