Convert cubic centimeter/second to milliliter/hour [mL/h] Online | Free flow Converter

Centimeter/Second [cm³/s]

Cubic centimeter per second (cm³/s) is a unit of volumetric flow rate that measures the volume of a fluid—liquid or gas—passing through a system every second. One cubic centimeter represents a cube with sides of one centimeter, so cm³/s indicates how many such tiny volumes flow each second. This unit is widely used in laboratory experiments, microfluidics, medical devices, and precision engineering where rapid yet small-scale fluid flows need to be monitored and controlled. For example, in medical applications, devices such as infusion pumps or respiratory equipment often rely on cm³/s measurements to ensure exact fluid or gas delivery. In microfluidics and chemical laboratories, reagents or solvents are dispensed at rates specified in cm³/s to maintain reaction accuracy and consistency. Compared to cm³/min, this unit allows for finer temporal resolution, enabling real-time monitoring and precise adjustment of flow rates. Using cubic centimeters per second, scientists, engineers, and technicians can track, regulate, and optimize fluid movement with high accuracy, ensuring efficiency, safety, and reliable performance in both experimental and industrial applications where even small variations in flow can significantly affect outcomes.

Hour [mL/h]

Milliliter per hour (mL/h) is a unit of volumetric flow rate that measures the volume of a liquid passing through a system every hour. One milliliter equals one-thousandth of a liter, so mL/h quantifies small fluid volumes with higher temporal resolution, making it ideal for medical, laboratory, and industrial applications. In healthcare, mL/h is commonly used to regulate intravenous fluid administration, ensuring patients receive the correct amount of medication or nutrients per hour. In chemical and biological laboratories, precise dispensing of reagents in mL/h ensures accurate experiments and reactions. Compared to mL/d, this unit allows for more frequent monitoring and finer control, which is crucial for processes that require continuous or incremental dosing. It is also used in pharmaceutical manufacturing, microfluidics, and analytical instruments where controlled fluid flow is essential. Using milliliters per hour enables professionals to measure, manage, and optimize small-scale fluid delivery, maintaining accuracy, safety, and consistency in critical applications where even minor variations can significantly impact results and outcomes.