Understanding Cubic Centimeters per second to Imperial Gallons per Hour Conversion
A cubic centimeter per second (cm3/s) is a metric flow rate of one millilitre passing each second, common in laboratory pumps and dosing systems. An Imperial gallon per hour (imp-gal/h) measures flow in UK Imperial gallons — each about 4.54609 litres — accumulated over one hour. Since an hour holds 3,600 seconds, a modest cm3/s reading translates into a meaningful hourly Imperial-gallon rate, useful when reporting equipment throughput in familiar UK water units.
Conversion Formula
To convert Cubic Centimeters per second to Imperial Gallons per Hour, multiply the number of Cubic Centimeters per second by this factor:
Step-by-Step Example
Convert 25 Cubic Centimeters per second to Imperial Gallons per Hour.
Write the formula:
Substitute the value:
Calculate the result:
How to Convert Cubic Centimeters per second to Imperial Gallons per Hour
Turn a per-second metric flow into an hourly Imperial-gallon figure in one step.
- Take the flow value: Start with the rate in cm3/s, for example 25 cm3/s.
- Multiply by the factor: Apply 0.791889, the Imperial gallons per hour equal to 1 cm3/s.
- Calculate: For 25 cm3/s, compute 25 × 0.791889.
- Report the answer: 25 cm3/s is approximately 19.7972 Imperial gallons per hour.
Cubic Centimeters per second to Imperial Gallons per Hour conversion table
| Cubic Centimeters per second (cm3/s) | Imperial Gallons per Hour (imp-gal/h) |
|---|---|
| 0 | 0 |
| 1 | 0.7918893 |
| 2 | 1.583779 |
| 3 | 2.375668 |
| 4 | 3.167557 |
| 5 | 3.959446 |
| 6 | 4.751336 |
| 7 | 5.543225 |
| 8 | 6.335114 |
| 9 | 7.127004 |
| 10 | 7.918893 |
| 15 | 11.87834 |
| 20 | 15.83779 |
| 25 | 19.79723 |
| 30 | 23.75668 |
| 40 | 31.67557 |
| 50 | 39.59446 |
| 60 | 47.51336 |
| 70 | 55.43225 |
| 80 | 63.35114 |
| 90 | 71.27004 |
| 100 | 79.18893 |
| 150 | 118.7834 |
| 200 | 158.3779 |
| 250 | 197.9723 |
| 300 | 237.5668 |
| 400 | 316.7557 |
| 500 | 395.9446 |
| 600 | 475.1336 |
| 700 | 554.3225 |
| 800 | 633.5114 |
| 900 | 712.7004 |
| 1000 | 791.8893 |
| 2000 | 1583.779 |
| 3000 | 2375.668 |
| 4000 | 3167.557 |
| 5000 | 3959.446 |
| 10000 | 7918.893 |
| 25000 | 19797.23 |
| 50000 | 39594.46 |
| 100000 | 79188.93 |
| 250000 | 197972.3 |
| 500000 | 395944.6 |
| 1000000 | 791889.3 |
What is Cubic Centimeters per second?
Cubic centimeters per second (cc/s or ) is a unit of volumetric flow rate. It describes the volume of a substance that passes through a given area per unit of time. In this case, it represents the volume in cubic centimeters that flows every second. This unit is often used when dealing with small flow rates, as cubic meters per second would be too large to be practical.
Understanding Cubic Centimeters
A cubic centimeter () is a unit of volume equivalent to a milliliter (mL). Imagine a cube with each side measuring one centimeter. The space contained within that cube is one cubic centimeter.
Defining "Per Second"
The "per second" part of the unit indicates the rate at which the cubic centimeters are flowing. So, 1 cc/s means one cubic centimeter of a substance is passing a specific point every second.
Formula for Volumetric Flow Rate
The volumetric flow rate (Q) can be calculated using the following formula:
Where:
- = Volumetric flow rate (in )
- = Volume (in )
- = Time (in seconds)
Relationship to Other Units
Cubic centimeters per second can be converted to other units of flow rate. Here are a few common conversions:
- 1 = 0.000001 (cubic meters per second)
- 1 ≈ 0.061 (cubic inches per second)
- 1 = 1 (milliliters per second)
Applications in the Real World
While there isn't a specific "law" directly associated with cubic centimeters per second, it's a fundamental unit in fluid mechanics and is used extensively in various fields:
- Medicine: Measuring the flow rate of intravenous (IV) fluids, where precise and relatively small volumes are crucial. For example, administering medication at a rate of 0.5 cc/s.
- Chemistry: Controlling the flow rate of reactants in microfluidic devices and lab experiments. For example, dispensing a reagent at a flow rate of 2 cc/s into a reaction chamber.
- Engineering: Testing the flow rate of fuel injectors in engines. Fuel injector flow rates are critical and are measured in terms of volume per time, such as 15 cc/s.
- 3D Printing: Regulating the extrusion rate of material in some 3D printing processes. The rate at which filament extrudes could be controlled at levels of 1-5 cc/s.
- HVAC Systems: Measuring air flow rates in small ducts or vents.
Relevant Physical Laws and Concepts
The concept of cubic centimeters per second ties into several important physical laws:
-
Continuity Equation: This equation states that for incompressible fluids, the mass flow rate is constant throughout a closed system. The continuity equation is expressed as:
where is the cross-sectional area and is the flow velocity.
Khan Academy's explanation of the Continuity Equation further details the relationship between area, velocity, and flow rate.
-
Bernoulli's Principle: This principle relates the pressure, velocity, and height of a fluid in a flowing system. It states that an increase in the speed of a fluid occurs simultaneously with a decrease in pressure or a decrease in the fluid's potential energy.
More information on Bernoulli's Principle can be found here.
What is the Imperial Gallon per Hour?
The imperial gallon per hour (imp-gal/h) is a unit of volumetric flow rate expressing how many imperial gallons of fluid pass a point in one hour. It is used in the UK and other Commonwealth countries for pumps, fuel consumption, and plumbing flow ratings.
Definition
One imperial gallon per hour equals one imperial gallon of volume divided by one hour (3,600 seconds):
The imperial gallon is defined as exactly 4.54609 litres, so dividing by 3,600 seconds gives 4.54609 / 3600 = 0.00126280 L/s (equivalently 4.54609 L/h).
Origin and History
The imperial gallon was established by the British Weights and Measures Act of 1824, originally defined as the volume of 10 pounds of water at a specified temperature. It was later fixed by reference to the litre. The "per hour" rate arose naturally in the 19th and 20th centuries as a practical measure for pump throughput and fuel usage, hours being a convenient interval for slow, steady flows.
Law and Notable Facts
The imperial gallon (4.54609 L exactly) is legally distinct from and about 20% larger than the US liquid gallon of 3.785411784 L. As a result an imperial gallon per hour is likewise about 20% greater than a US gallon per hour. Since UK metrication, the imperial gallon is no longer a primary trade unit but persists in fuel-economy figures (miles per gallon) and equipment specifications.
Real-World Examples and Conversions
- A small garden or aquarium pump rated at 100 imp-gal/h moves about 454.6 litres of water every hour, roughly 0.126 L/s.
- A domestic tap running at 1 imperial gallon per hour is a bare trickle of about 4.55 L each hour.
- 1 imp-gal/h ≈ 0.833 US gal/h, reflecting the larger imperial gallon.
- A pump moving 220 imp-gal/h delivers about 1,000 L/h, or roughly 0.278 L/s.
Frequently Asked Questions
What is the formula to convert Cubic Centimeters per second to Imperial Gallons per Hour?
Multiply the cm3/s value by 0.791889. For example, 20 cm3/s equals about 15.8378 Imperial gallons per hour.
How many Imperial Gallons per Hour are in 1 Cubic Centimeter per second?
One cm3/s equals about 0.791889 Imperial gallons per hour, since 1 mL/s flows for 3,600 seconds each hour.
How do I convert 100 Cubic Centimeters per second to Imperial Gallons per Hour?
Multiply 100 by 0.791889 to get roughly 79.1889 Imperial gallons per hour.
Is this Imperial or US gallons?
This uses the UK Imperial gallon of about 4.54609 litres, which is larger than the US gallon of about 3.78541 litres, so US-gallon figures would be higher.
When would I use gallons per hour instead of per second?
Hourly rates are easier to compare against pump specifications, tank fill times, and utility reporting, which are commonly quoted per hour rather than per second.