There is no more important question in climate science to debate: is the claim of the AGW Greenhouse Effect energy budget about the basic properties
of electromagnetic energy from the Sun true or false?
Don't you have anything explaining the different properties and processes
of electromagnetic energy from the Sun and how visible light physically heats matter?
AGWScience Fiction has introduced into the education system the Greenhouse Effect with its own fictional version
of electromagnetic energy from the Sun, effectively dumbing down basic science for the general population who now can't tell the difference between Heat and Light, who couldn't now design applications based on knowing the difference; who don't understand and so couldn't themselves design photovoltaic and thermal panels to capture the different energies of Heat and Light from the Sun.
Not exact matches
These include the products
of radioactive decay, cosmic rays (the highest -
energy form
of electromagnetic radiation known to man), and the stellar wind, a stream
of particles that fly out
from any star as it continuously burns.
In a recent experiment performed at the Radioactive Isotope Beam Factory at RIKEN, an international collaboration with scientists
from eleven countries, led by scientists
of the Instituto de Estructura de la Materia, CSIC (Spain) and the RIKEN Nishina Center (Japan), made a very surprising observation: High -
energy gamma rays — which are mediated by the
electromagnetic force — are emitted in the decay
of a certain excited nucleus — tin 133, in competition with neutron emission, the decay mode mediated by the strong nuclear force.
With this unique patterning, the absorbers can be boosted to harvest more solar
energy from the ultraviolet and visible regions
of the
electromagnetic spectrum,» said Masdar Institute postdoctoral researcher Dr. Jin You Lu, who is the paper's lead author along with MIT postdoctoral researcher Dr. Sang Hoon Nam.
Further detectors inside the tank look for decay particles: a magnetic spectrometer measures the momentum
of charged tracks
from kaon decays, a ring imaging Cherenkov (RICH) detector tells the team the nature
of decay particles, and
electromagnetic and hadronic calorimeters measure their
energy.
Because these
electromagnetic emissions are on the order
of an electron volt, and they probably come
from a single molecule, or atom, or electron, we can now say that the
energy concentration is now on the order
of one electron volt per molecule — an increase
of a factor
of 1011 or so.
The
energy loss function represents the level
of interaction between the material and
electromagnetic waves, and is expressed in terms
of the change in the amount
of energy lost
from electrons and the change in momentum due to corresponding scattering events occurring in the material.
Several factors influenced this
energy split,
from the quantum correlation between the electrons to the
electromagnetic state
of the laser field, Schultze says.
ALMA observes radio waves
from the Universe, at the low -
energy end
of the
electromagnetic spectrum.
Previously, all astronomy observations have relied on light — which includes X-rays, radio waves, and other types
of electromagnetic radiation emanating
from objects in space — or on very - high -
energy particles called neutrinos and cosmic rays.
Some, however, use a network
of antennas to collect radio emissions (
energy from a different portion
of the
electromagnetic spectrum).
When a molecule transits
from a certain rotation state to another, it emits or absorbs
electromagnetic waves that have
energy equivalent to the difference
of energy between the two states.
These observatories cover a wide range
of the
electromagnetic spectrum,
from high -
energy X-rays to low -
energy radio waves.
On Nov. 11, 2014, a global network
of telescopes picked up signals
from 300 million light - years away that were created by a tidal disruption flare — an explosion
of electromagnetic energy that occurs when a black hole rips apart a passing star.
One
of the newest
of those projects, now occupying an army
of scientists
from around the globe, focuses on the end
of the
electromagnetic spectrum where waves are ultra-short and
energy levels are ultra-high — the gamma - ray realm.
Solar flares are bursts
of electromagnetic energy and particles that sometimes stream
from the sun.
This leads to a build up
of positive electrons in the body
from electrical
energy,
electromagnetic frequencies, WI - FI and more.
Robbins occasionally takes time out
from his usual seminar patter to hawk unrelated products — like QLink, a pendant that, he says, will protect you
from cell - phone radiation,
electromagnetic pulse, and other types
of harmful ambient
energy.
# 4
from the FDA website: «Microwaves are a form
of «
electromagnetic» radiation; that is, they are waves
of electrical and magnetic
energy moving together through space.
In this sense, color transmits feeling (s) through the perception
of energy (wavelengths)
from the
electromagnetic spectrum.
Swain continues, «Color is a form
of energy derived
from the
electromagnetic spectrum that stimulates our perceptual processes and is instrumental in conveying emotions.
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.
They have done this primarily by the same technique used to change real gases to ideal for the same reason, to get rid
of real world properties and processes which real world physics knows and has defined by the distinct differences and similarities, which knows that
electromagnetic energies from the Sun are not the same and do not all create heat on being absorbed.
The heat
energy of the
electromagnetic spectrum is called thermal for a reason... It is as NASA says, the actual heat we feel
from the Sun.
Does the plant somehow convert this «all the same undifferentiated
electromagnetic energy from the Sun» to green light outside
of itself before absorbing it only to reject it?
With
electromagnetic energy from the Sun it needed to push the idea
of «shortwave heats land and oceans» because it first had to take out the direct heat
from the Sun, thermal infrared, a.k.a. longwave infrared, a.k.a. heat, to establish its claimed «backradiation by greenhouse gases
from trapping the upwelling thermal infrared
from the heated Earth» and it didn't want any interference by the real world's direct heat
from the Sun, thermal infrared, direct longwave infrared.
This is real world bog standard physics necessary to understanding climate, and all climate scientists claiming shortwave and not thermal infrared longwave
from the Sun is doing this are required to prove it because the whole
of the AGW Greenhouse Effect is based on the claims about the
electromagnetic energies from the Sun,
of «shortwave in longwave out».
18 H.
Energy in Earth System Most energy that reaches Earth's surface comes from the sun as electromagnetic radiation in form of infrared, visible, and UV
Energy in Earth System Most
energy that reaches Earth's surface comes from the sun as electromagnetic radiation in form of infrared, visible, and UV
energy that reaches Earth's surface comes
from the sun as
electromagnetic radiation in form
of infrared, visible, and UV rays.
Most
energy that reaches Earth's surface comes
from the sun as
electromagnetic radiation in form
of infrared, visible, and UV rays.
In this lively, animated presentation, Professor Denning first explains how visible light (a form
of electromagnetic radiation)
from the Sun delivers
energy to Earth.
Remote sensors include passive systems (instruments that receive information naturally emitted
from a region in the atmosphere) and active systems (instruments that emit either acoustic or
electromagnetic energy and record the characteristics
of this
energy after it reflects off an object or surface and returns back to the sensor).
The light
from the Sun passes through the Earth's atmosphere, which is transparent to visible light (that's why our eyes evolved to be sensitive to this kind
of electromagnetic radiation), and warms the surface
of the Earth, which in turn reradiates the
energy, now as infrared radiation, because the Earth's surface isn't as hot as the Sun.
In the course
of that process heat
energy is released around the planet and radiated out with the rest
of the
electromagnetic energy received
from the sun.
PNNL researchers are examining whether a variety
of fish and invertebrates change their behavior during and after exposure to an
electromagnetic field similar to those produced by marine and hydrokinetic power devices that capture
energy from ocean waves, tides, currents and rivers.
Photosynthesis in plants utilizes a complex arrangement
of proteins, enzymes, and other chemical components to turn
electromagnetic energy from the sun into chemical
energy for the plant.