Then as now, the primary function of a radio was to convert
radio waves into small electrical pulses which, when amplified, could be converted into recognizable sound.
Before hitting the atmosphere, charged particles also emit
radio waves into space.
A tiny camera in a pair of glasses will send the image via
radio waves into the mouth.
The team shows that a nanoscale metal rod on graphene (acting as an antenna for light) can capture infrared light and transform it into graphene plasmons, analogous to a radio antenna converting
radio waves into electromagnetic waves in a metal cable.
So, I don't think it is a matter of fitting
a radio wave into a microscopic box.
-LRB-(Both the size of your box and the size of the hole limits the wavelengths (you won't detect radio waves coming out of a microscopic hole, nor can you fit
a radio wave into a microscopic box).)-RRB-
Both the size of your box and the size of the hole limits the wavelengths (you won't detect radio waves coming out of a microscopic hole, nor can you fit
a radio wave into a microscopic box).
Not exact matches
NASA uses a technique called data sonification to take signals from
radio waves, plasma
waves, and magnetic fields and convert them
into audio tracks to «hear» what's happening in space.
Throwing my bags
into the car, I
waved my wife and children a hasty goodbye and then reversed out of the drive, automatically turning on the
radio as I went.
In general,
Radio wave in general, is a process where vitamins, drugs, chemicals and herbs are combined together in a formulation that is given and injected
into the central area of the skin (named mesoderm) to ruin cellulite and fat.
Argon gas is blown
into the vacuum chamber, where
radio waves heat the gas to 1 million or 2 million kelvins — an advantage since higher temperatures lead to greater efficiency.
There the
radio signals will excite electrons and turn them
into waves of relatively hot ionized gas, or plasma, in a narrow slice of sky.
Parts of the string then emit low - frequency
radio waves that accelerate the surrounding plasma
into generating a burst of gamma rays.
When activated, sensors inside would scan the thousands of brain
waves oscillating in a soldier's head; a microprocessor would apply pattern recognition software to decode those
waves and translate them
into specific sentences or words, and a
radio would transmit the message.
Such tags, costing just a few cents, carry a small, non-powered chip that, when hit by
radio waves from a nearby «reader,» converts some of the
radio energy
into its own
radio pulse in return.
Ultrasharp
radio images reveal a rapidly moving shock
wave where the winds collide, periodically creating fine dust that cascades
into space.
Scientists use the apparatus to search for axions converting
into radio waves in a strong magnetic field.
Mooley and colleagues suggest that the rise in
radio wave emissions could be explained if the jet slammed
into a shell of neutron - rich material kicked out in the neutron star crash, transferring most of its energy to that debris and smothering the jet.
CH3OH is normally produced on the surface of dust, but when the temperature increases by some process, it will be released from the dust surface and turn
into gas which emits
radio waves.
Last week researchers reported they had traced a cosmic blast of
radio waves back to its source for the first time — but now another team of fast - acting astronomers has called the result
into question.
Radar uses
radio waves to enable aircraft, ships and ground stations to see far
into their surroundings even at night and in bad weather.
«Why space dust emits
radio waves upon crashing
into a spacecraft: A new simulation provides the first mechanism to explain why plasma from hypervelocity impacts generates electromagnetic radiation.»
The rest gets turned
into radio waves or light, which turn
into heat when they are absorbed by other surfaces.
Just as FM stations embed songs in
radio waves that your car stereo translates
into Celine Dion's power ballads, space missions embed data (though typically not voice transmissions) that the DSN antennas convert
into images and other spacecraft info.
In earlier observations, emission from two or more faint objects often was blurred or blended
into what appeared to be a single, stronger source of
radio waves.
In the same way large antennas on rooftops direct emission of classical
radio waves for cellular and satellite transmissions, the nano - antenna efficiently directed the single photons emitted from the nanocrystals
into a well - defined direction in space.
Software installed on the user's device — whether a laptop, smartphone,
radio or television — translates this information
into a countdown for their specific location based on estimates of the speed at which the
waves are traveling through Earth's crust.
It acted like a funnel for
radio waves, collecting them
into its wide end and guiding them down
into a detector.
This week, meteors» hiss may come from
radio waves, pigeons that build on the wings of those that came before, and a potential answer to the century - old mystery of what turned two lions
into people eaters with Online News Editor David Grimm.
They can see protostellar disks taking shape and pushing their jets out
into space, and they have worked to integrate the new data with results from optical and
radio telescopes (
radio waves, millimeter wavelengths in particular, can penetrate the dust and gas too).
Zapped by
radio waves, hydrogen atoms lose their electrons and are transformed
into a plasma as hot as the sun.
We know that for energies of modest to intermediate energy, the culprit or the source of the acceleration appears to be the shock front that surrounds a [an] expanding supernova blast
wave; that is to say, we have a star that undergoes a massive cosmic explosion [and] drives a strong shock
wave out
into the surrounding interstellar medium, and the gas around the shock
wave, and all the magnetic fields associated with it are capable of accelerating particles to very high energies; and also incidentally magnifying and amplifying the magnetic field associated with that shock front and giving a lot of x-ray emission and
radio emission and so on, and so we've understood that.
China's awesome Five - hundred - meter Aperture Spherical
radio Telescope, the world's largest of its kind, will be able to peer further
into the past than previous
radio telescopes to gather weaker and more distant signals that promise to provide clues to the origins and evolution of the universe, probe gravitational
waves and dark matter, and listen for transmissions from extraterrestrial civilizations.
At those high magnetic fields, they get
into resonance with
radio waves or microwaves, which changes the magnetic moment in such a way that the atoms fly away and escape from the trap.
Most of that light scatters
into the interstellar dust that lies between us and the Milky Way's core, but
radio waves and x-rays can penetrate the shroud of dust to reach the earth.
The team fired artificially generated neutrinos
into their ice sculpture and successfully measured
radio waves using the ANITA antennas (www.arxiv.org/hep-ex/0611008), which are designed to pick out
radio waves from GZK neutrinos and nothing else.
What they needed was a small but powerful instrument that could greatly amplify high - frequency
radio waves — those
into the microwave range — so they could bounce them...
These
radio waves use 2.4 ghz or 5ghz and from there the router breaks up this signal
into 14 different channels, much like walkie talkies.
Daniel Graham has used observations by STEREO where Langmuir
waves were naturally converted
into radio waves.
``... being considered by the US Air Force and the US Defense Advanced Research Projects Agency,... using very low frequency
radio waves to flush particles from [the Van Allen radiation] belts and dump them
into the upper atmosphere over either one or several days.
Using the millimeter -
wave interferometer at Caltech's Owens Valley
Radio Observatory, the astronomers combined 15 smaller images
into a single mosaic to produce an image showing the location of Carbon Monoxide (CO) gas throughout a galaxy called IC 10, some 2.5 million light - years away.
These are subdivided
into sub-mm
waves, microwaves and longer - wavelength
radio waves.
This year, ALMA - J Project Office presented: explanation of ALMA using poster exhibition and a miniature of the ALMA site; mini-lectures by six lecturers; celestial journey in the Chilean skies using a constellation camera at the Operations Support Facility of ALMA; a mini-experiment to see if rubber balls fallen from a higher place (to resemble
radio waves from the universe) are collected
into the focal point of an antenna dish; and another experiment to receive satellite broadcasts using a lid of a pot, instead of an antenna dish.
To detect faint
radio waves coming from 10 billion light years away in an extremely harsh environment at an altitude of 5000 meters, new breakthrough technologies are incorporated
into ALMA by integrating high - efficiency receivers, high - speed computer, and high - precision antennas allowing high accuracy tracking.
At right, the jet can not punch out of the shell of explosion debris, but instead sweeps up material
into a broad «cocoon,» which absorbs the jet's energy and emits X-rays and
radio waves over a wider angle.
Shorter wavelength
radio waves are thought to be emitted close
into the root of the jet, so the result shows that the magnetic field is stronger and better aligned at the root of the jet.
Recent gravitational -
wave discoveries by LIGO, as well as recent progress in X-ray, gamma ray and
radio observations, have opened an unprecedented observational window
into black holes and neutron stars.
According to lead author Francesca Poli, the new computer simulations show that the current can best be sustained by injecting high - harmonic
radio - frequency
waves (HHFWs) and neutral beams
into the plasma.
In ALMA, the observed
radio waves are divided
into 10 frequency bands and then converted
into electrical signals.
As
radio waves travel through space, they run
into gas and other material, which has an effect on the signal.