Mass Flux Density Converter - Convert kg/(m²·s), g/(cm²·s), lb/(ft²·s) & More Units
Result:
1 kg/(m²·s) = 0.1 g/(cm²·s)
How Mass Flux Density Conversion Works
Input Value
Enter mass flux density value
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Convert
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Mass Flux Density Conversion Table
| kg/(m²·s) | g/(cm²·s) | lb/(ft²·s) | lb/(in²·s) | g/(m²·s) | kg/(cm²·s) |
|---|---|---|---|---|---|
| 0.001 | 0.000100 | 0.000205 | 0.00000142 | 1 | 0.00000010 |
| 0.01 | 0.001000 | 0.002048 | 0.00001422 | 10 | 0.00000100 |
| 0.1 | 0.010000 | 0.020482 | 0.00014223 | 100 | 0.00001000 |
| 0.5 | 0.050000 | 0.102408 | 0.00071117 | 500 | 0.00005000 |
| 1 | 0.100000 | 0.204816 | 0.00142233 | 1000 | 0.00010000 |
| 2 | 0.200000 | 0.409632 | 0.00284467 | 2000 | 0.00020000 |
| 5 | 0.500000 | 1.024081 | 0.00711167 | 5000 | 0.00050000 |
| 10 | 1.000000 | 2.048161 | 0.01422334 | 10000 | 0.00100000 |
| 20 | 2.000000 | 4.096323 | 0.02844669 | 20000 | 0.00200000 |
| 50 | 5.000000 | 10.240807 | 0.07111671 | 50000 | 0.00500000 |
| 100 | 10.000000 | 20.481615 | 0.14223343 | 100000 | 0.01000000 |
| 200 | 20.000000 | 40.963229 | 0.28446686 | 200000 | 0.02000000 |
| 500 | 50.000000 | 102.408073 | 0.71116714 | 500000 | 0.05000000 |
| 1000 | 100.000000 | 204.816145 | 1.42233429 | 1000000 | 0.10000000 |
| 5000 | 500.000000 | 1024.080726 | 7.11167145 | 5000000 | 0.50000000 |
Mass Flux Density Units Progression Chart
0.1 kg/(m²·s)
1 kg/(m²·s)
5 kg/(m²·s)
10 kg/(m²·s)
50 kg/(m²·s)
100 kg/(m²·s)
Practice Problems
Problem 1:
Convert 5 kg/(m²·s) to g/(cm²·s)
Solution: 5 ÷ 10 = 0.5 g/(cm²·s)
Problem 2:
Convert 2.5 lb/(ft²·s) to kg/(m²·s)
Solution: 2.5 × 4.8824276 = 12.21 kg/(m²·s)
Problem 3:
Convert 0.1 g/(cm²·s) to kg/(m²·s)
Solution: 0.1 × 10 = 1 kg/(m²·s)
Problem 4:
Convert 1000 g/(m²·s) to kg/(m²·s)
Solution: 1000 × 0.001 = 1 kg/(m²·s)
Problem 5:
Convert 0.001 lb/(in²·s) to kg/(m²·s)
Solution: 0.001 × 703.0696 = 0.703 kg/(m²·s)
What is Mass Flux Density?
Mass flux density is how much mass flows through a surface area in one second. Think of it like water flowing through a pipe. The mass flux density tells us how much water passes through each square meter of the pipe opening every second.
We measure mass flux density in units like kg/(m²·s). This means kilograms per square meter per second. It helps engineers design better systems for moving liquids and gases.
Simple Example:
If 10 kg of water flows through a 1 m² opening in 1 second, the mass flux density is 10 kg/(m²·s).
Common Examples of Mass Flux Density
🏭 Factory Pipes
Chemical plants use mass flux density to control how fast materials flow through pipes.
Typical range: 0.1 to 50 kg/(m²·s)
🌬️ Air Conditioning
HVAC systems measure air flow to keep buildings comfortable.
Typical range: 0.01 to 5 kg/(m²·s)
💊 Medicine Making
Drug companies control how fast ingredients mix together.
Typical range: 0.001 to 10 kg/(m²·s)
🌊 Water Treatment
Water plants use this to clean water efficiently.
Typical range: 0.1 to 20 kg/(m²·s)
Frequently Asked Questions
What does kg/(m²·s) mean?
It means kilograms per square meter per second. This tells us how many kilograms of material pass through one square meter of space in one second.
How do I convert between different units?
Use our converter above! Just enter your number, pick your starting unit, and choose what you want to convert to. The answer appears instantly.
Why is mass flux density important?
It helps engineers design better pipes, filters, and machines. Knowing how fast materials flow helps make systems work safely and efficiently.
What's the difference between mass flux and mass flux density?
Mass flux is the total amount flowing (like kg/s). Mass flux density is how much flows through each unit of area (like kg/(m²·s)). Think of it as total flow vs. flow per square meter.
Which unit should I use?
Use kg/(m²·s) for most engineering work. Use g/(cm²·s) for small lab experiments. Use lb/(ft²·s) if you work with imperial measurements in the US.
Where We Use Mass Flux Density Every Day
🏠 Home Heating
Your furnace uses mass flux to move warm air through your house efficiently.
🚗 Car Engines
Fuel injection systems control how fast gas flows into the engine.
🏭 Food Processing
Food factories use this to control how ingredients mix and flow.
🌊 Swimming Pools
Pool filters need the right flow rate to keep water clean and clear.
🏥 Hospitals
Medical equipment controls how fast medicines flow through IV tubes.
🌱 Farming
Irrigation systems use mass flux to water crops at the right speed.