What is a heat-flux-density converter?

A heat-flux-density converter helps you convert between different units of heat-flux-density quickly and accurately.

Is this heat-flux-density converter free to use?

Yes, this heat-flux-density converter is completely free and easy to use for all your conversion needs.

Can I switch between dyne/hour/centimeter and foot pound/minute/square foot easily?

Yes, there is a switch button provided to quickly swap the conversion direction between dyne/hour/centimeter and foot pound/minute/square foot.

How accurate are the conversion results?

The conversion results are calculated using precise formulas to ensure accuracy for most practical purposes.

Convert dyne/hour/centimeter to foot pound/minute/square foot Online | Free heat-flux-density Converter

Q: How do I convert dyne/hour/centimeter to foot pound/minute/square foot?

Simply enter the value in the dyne/hour/centimeter input field, and the converter will show you the equivalent value in foot pound/minute/square foot instantly.

Dyne per Hour per Centimeter [dyne/(h·cm)]

The unit dyne per hour per centimeter, written as dyne/(h·cm), measures force per unit length over time, often used in contexts such as viscous drag, material creep, or very slow mechanical processes in cgs (centimeter-gram-second) units.

A dyne is the cgs unit of force, defined as the force required to accelerate 1 gram of mass by 1 cm/s². Therefore, 1 dyne = 10⁻⁵ newtons in SI units. The additional division by centimeter represents a per-unit-length measure, and division by hour accounts for time rate.

Mathematically, the quantity can be expressed as:

F_\text{rate} = \frac{F}{L \cdot t}

where F is force in dynes, L is length in cm, and t is time in hours.

Applications include:

Creep or stress studies in materials under very small forces over long periods
Lubrication or viscous flow measurements in cgs-based engineering studies
Experimental mechanics where small forces per unit length are measured over extended time

Conversion to SI units:

1 \, \text{dyne/(h·cm)} \approx 2.78 \times 10^{-9} \, \text{N/(m·s)}

This unit is largely of historical or specialized interest but provides a precise cgs-based measure for extremely slow, small-force phenomena.

Foot-Pound per Minute per Square Foot [ft·lb/(min·ft²)]

The unit foot-pound per minute per square foot, written as ft·lb/(min·ft²), measures energy flux density or power per unit area in the Imperial system. One foot-pound (ft·lb) is the energy required to move a force of 1 pound-force over a distance of 1 foot, equivalent to 1 ft·lb ≈ 1.35582 joules. Dividing by time (minutes) and area (ft²) gives the rate of energy transfer per unit area over time.

This unit is commonly used in U.S.-based engineering, building physics, and solar energy studies where energy flux through surfaces is measured. Applications include:

Heat transfer through walls, floors, or roofs
Solar radiation incident on building surfaces
Mechanical or thermal energy flux in industrial processes

Mathematically, the flux is expressed as:

q = \frac{E}{A \cdot t}

where q is flux in ft·lb/(min·ft²), E is energy in foot-pounds, A is area in ft², and t is time in minutes.

Conversion to SI units:

1 \, \text{ft·lb/(min·ft²)} \approx 0.2258 \, \text{W/m²}

While modern practice favors W/m², ft·lb/(min·ft²) remains relevant in legacy U.S. building and thermal engineering literature, providing an intuitive measure of energy transfer per square foot per minute.

No conversions available for heat-flux-density.