The active particles permanently embedded in the yarn capture heat from your body's infrared energy to speed evaporation and cool itself if there is moisture vapor (sweat) present, or retain that heat to keep you warm when no moisture is present.Non - iron.75 % cotton, 23 % 37.5 polyester, 2 % elastane.Spread collar.No pockets.37.5 is the only fabric technology that captures and releases moisture vapor, using your body s
radiant infrared energy to keep you comfortable..
Cotton blend.Spread collar.No chest pocket.37.5 is the only fabric technology that captures and releases moisture vapor, using your body s
radiant infrared energy to keep you comfortable..
Not exact matches
The company behind the technology has created fibers laden with thermo - reactive minerals that convert a person's
radiant body heat into
infrared energy, which is reflected back into the body.
Tests have shown that the
energy output of our True Wave ™ far
infrared heaters is tuned so closely to the body's own
radiant energy that our bodies absorb as much as 93 % of the far
infrared waves that reach our skin.
I can't force you to think about this, but please note, in traditional science heat and light from the Sun are two entirely distinct from each other categories and not interchangeable, so, when «heat and light from the Sun» are mentioned together like this, by «heat» is meant the Sun's thermal
energy on the move to us,
radiant heat, the electromagnetic waves of thermal
infrared aka longwave
infrared, and by «light» is meant visible.
There appear to be some of you who don't know that longwave
infrared aka thermal
infrared aka
radiant heat direct from the Sun has been excised from the AGWScienceFiction Greenhouse Effect
Energy Budget.
It is commonly said that a greenhouse works by allowing in visible light and this
radiant energy gets absorbed and then the glass of greenhouse blocks the
infrared light.
(In addition, based on the recent, controversial but as yet unrebutted research of Gerald Pollack & Co, water itself stores
radiant energy (both visible light &
infrared) in order as well («Exclusion Zones» — ice - like hexagonal sheets and clusters); life may also leverage this stored
energy in water to supplement photosynthesis.)
Radiant solar (shortwave) energy is transformed into sensible heat (related to temperature), latent energy (involving different water states), potential energy (involving gravity and altitude) and kinetic energy (involving motion) before being emitted as longwave infrared radiant
Radiant solar (shortwave)
energy is transformed into sensible heat (related to temperature), latent
energy (involving different water states), potential
energy (involving gravity and altitude) and kinetic
energy (involving motion) before being emitted as longwave
infrared radiant radiant energy.
Greenhouse gases don't block all outgoing
radiant energy — it merely slows it down by capturing more
infrared photons and re-emitting in all directions including down — increasing net
energy retained at any instant in the atmosphere.
For example, Fasullo and Trenberth (2012) used satellite data from the NASA Atmospheric
Infrared Sounder (AIRS) and Clouds and the Earth's
Radiant Energy System (CERES) to examine the relationship between seasonal changes in relative humidity (RH) in the dry subtropics and the Earth's albedo via cloud cover.
The six instruments are the Atmospheric
Infrared Sounder (AIRS), the Advanced Microwave Sounding Unit (AMSU - A), the Humidity Sounder for Brazil (HSB), the Advanced Microwave Scanning Radiometer for EOS (AMSR - E), the Moderate Resolution Imaging Spectroradiometer (MODIS), and Clouds and the Earth's
Radiant Energy System (CERES).
A greenhouse gas is a gas in an atmosphere that absorbs and emits
radiant energy within the thermal
infrared range.
Radiant solar (shortwave)
energy is transformed into sensible heat, latent
energy (involving different water states), potential
energy, and kinetic
energy before being emitted as longwave
infrared energy.