Teach and enable, grow the market, then pay yourselves.

Franco Ronconi 🇮🇹 @FrRonconi
Transform your #Smartphone in a #ThermalImaging camera 👍🏻

by @FlukeCorp
#Innovation #Lidar #3D #Mobile
@CurieuxExplorer @Hana_ElSayyed @NevilleGaunt @Fabriziobustama @anand_narang @enilev @Khulood_Almani @sonu_monika @BetaMoroney @mvollmer1 @RagusoSergio @kalydeoo @baski_LA https://pic.twitter.com/nwnmlD1iVz
Replying to @FrRonconi @FlukeCorp and 13 others

Fluke website images were all missing for thermal cameras. Internet about “thermal cameras” is a mess. Part of “open” for creating new industries and markets is “complete”, “clear”, “immediate”, “accessible”, “affordable”. Teach and enable, grow the market, then pay yourselves.

h*c/Wavelength = k*T

dT = h*c/(k*Wavelength) =  (6.62607015E-34*2.99792458e8)/1.38056e-23 = 0.0143886963 Kelvin*Meters /Wavelength

LWIR from 8 micrometers to 14 micrometers

dT_low = 0.0143886963 Kelvin*Meters/8E-6 meters = 1798.58704 Kelvin

dT_high = 0.0143886963 Kelvin*Meters/14E-6 meters = 1027.76402 Kelvin

The seismometers are correlated with gravitational changes through the temperature-based radiation field (electromagnetic energy density from Sigma*T^4) of fluctuations in the atmospheric temperature field.  The residual of the superconducting gravimeters signal after subtracting the sun moon vector tidal gravity is mostly atmospheric.

First Evidence of Correlation Between Evapotranspiration and Gravity at a Daily Time Scale From Two Vertically Spaced Superconducting Gravimeters at https://agupubs.onlinelibrary.wiley.com/doi/full/10.1029/2021GL096579

Network of superconducting gravimeters benefits a number of disciplines at https://agupubs.onlinelibrary.wiley.com/doi/abs/10.1029/99EO00079

The influence of barometric-pressure variations on gravity at https://academic.oup.com/gji/article/48/3/281/615208

The influence of pressure waves in tidal gravity records at https://www.sciencedirect.com/science/article/pii/S1674984722000738 – atmospheric barometric admittance of about 3.5 nm/s^2 per hPascal. Barometric pressure spectrum, atmospheric tides, planetary waves, Station Pressure, Solar Heating Tides, Atmospheric pressure models,

A search for atmospheric effects on gravity at different time and space scales at https://www.sciencedirect.com/science/article/abs/pii/S0264370714000179

Frequency-dependent atmospheric pressure admittance of superconducting gravimeter records using least squares response method at https://www.sciencedirect.com/science/article/abs/pii/S0031920108001519