This X-ray image shows a porcupine fish in its defensive posture — filled with water or air and deploying sharp spikes — and then in its normal, relaxed state.
An X-ray image shows steel rods implanted in the femur (or leg bone) of a patient with brittle bone disease.
This X-ray image shows the region around our galaxy's central supermassive black hole, known as Sagittarius A * (or Sgr A *).
X-ray images showed the sucked - up droplet in the fly's throatlike passage near the animal's brain.
Not exact matches
A new
image of the globular cluster 47 Tucanae,
shows a clusters of stars with some interesting properties: emitting
X-rays and being super bright.
It combines visible light
images from Hubble and the Very Large telescope (
shown in blue, green, and red)- which
show gas and stars - with
X-ray images from Chandra (
shown in pink) which picks out extremely hot gas in between the galaxies, heated by the collision.
The
image above
shows the hard
X-rays (seen here as red and yellow) as well as visible and ultraviolet light (white and purple) detected by Swift.
This
image was taken by the Chandra
X-Ray Observatory, and
shows very high - energy
X-rays in blue, and lower energy
X-rays in red (both have been superposed on a sky survey
image of stars representing the location of the nebula).
The
image shows X-rays (blue), microwaves (orange) and visible light.
Rampadarath explains: «Comparing the VLA
images at radio wavelengths to Chandra's
X-ray observations and the hydrogen - emission detected by Hubble,
shows that features are not only connected, but that the radio outflows are in fact the progenitors of the structures seen by Chandra and Hubble.
More than 100 days after two neutron stars slammed together, merging into one, new telescope
images have revealed that the collision's lingering
X-ray light
show has gotten brighter.
The
image shows the
X-ray and H - alpha arcs, as well as the radio outflows from the supermassive black hole at the centre of NGC 5195.
Sound waves carrying a continuous supply of acoustic energy would neatly explain the bubbles» long - term existence — exactly what the new
X-ray images seem to
show.
The protein volume paradox dates back to the first
X-ray structures of proteins, when
images showed that 30 percent of the volume of a protein is comprised of voids and cavities inside the imperfectly packed atoms of the structure.
As expected, Lin's
images showed big
X-ray sources at the two footprints and a 40 - million - degree afterglow that he believes marks the reconnection site.
«They don't get the big picture that
X-rays show,» says NASA's Una Hwang, who made this
image.
Low - energy
X-rays (red) in the
image show expanding debris from the supernova explosion and high energy
X-rays (blue)
show the blast wave, a shell of extremely energetic electrons.
The
images show the rock layers at depth, much as
X-ray photos
show the bones in people's bodies.
The new
X-ray crystal structures, however, provide clues to this process by
showing for the first time three - dimensional
images of E. coli RNA polymerase in complex with ppGpp and another important factor that works with ppGpp, DksA.
Here, FOXSI's observations of hard
X-rays are
shown in blue, superimposed over a soft
X-ray image of the Sun from JAXA and NASA's Hinode solar - observing satellite.
That is to the bomber's advantage, Alford says, but the downside for them is that these materials
show up well on
X-ray images.
The
X-ray images he made
show that the hero shrew has 11 vertebrae in its lower spine — most shrews have only 5 or 6 — which makes it extremely limber.
Images of the sun in the far ultraviolet and in
X-rays (acquired most recently by the Solar and Heliospheric Observatory spacecraft, the Yohkoh satellite, and the NIXT rockets)
show that the heating of the corona is localized in solar active regions, which indicates the important role played by the magnetic field.
Japan's Hinode spacecraft picked up low - energy
X-rays, depicted in green, while NASA's Solar Dynamics Observatory
imaged areas with extreme ultraviolet light,
shown in yellow and red.
At first, he says,
x-ray surveys of the clusters «
showed just a mess, and the optical
image didn't look much better.»
This
image — produced by an advanced
X-ray technique called computed tomography, or CT —
show advances on both fronts.
The structures determined by
x-ray crystallography
show that the binding pocket of HSP90 is lined by a region that can take the form of a helix or a loop when bound to different inhibitors (see
image below).
Owing to the limited aperture of the
X-ray machine, only a fraction of those ants
show up in the
images.
NASA's Chandra
X-ray Observatory
image shows the edge of RXJ1713.7 - 3946, a supernova remnant.
This Chandra
image shows the hot
x-ray halo surrounding the massive spiral galaxy NGC 5746.
The
image is a colorized composite of low - energy
x-rays (red)
showing debris and high - energy
x-rays (blue)
showing the blast wave, plus the visible field of stars around it.
Left:
X-ray images taken with NASA's Chandra observatory in late August / early September 2017, and right:
images taken early December 2017,
showing a clear brightening of the object (Credit: NASA / CXC / McGill / J.Ruan et al..)
As
shown in our additional, composite
image, part of the evidence for this heating process comes from the similarity in location between the hydrogen and
X-ray emission, both thought to be caused by shocks, and the radio jets.
The main panel
shows X-rays from Chandra (purple) that have been overlaid on an optical
image from Hubble.
Figure 1 Composite
image showing how powerful radio jets from the supermassive black hole at the center of a galaxy in the Phoenix Cluster inflated huge «bubbles» in the hot, ionized gas surrounding the galaxy (the cavities inside the blue region
imaged by NASA's Chandra
X-ray observatory).
A composite
image of the spiral galaxy NGC 4258
showing X-ray emission observed with NASA's Chandra
X-ray Observatory... view
image
A panorex
X-ray is used in dentistry and some head and neck cancers to
show both the upper and lower jaws and teeth in the same
X-ray image.
Representing an area called Chandra Deep Field - South, the deepest
X-ray image ever
shows the highest concentration of supermassive black holes ever seen.
Figure 1
shows the
X-ray image at 109.2 days post-burst, alongside the one at 15.6 days post-burst, clearly
showing the source get brighter.
In this
image, low, medium, and high - energy
X-rays that Chandra detects are
shown as red, green, and blue respectively.
Inset corresponds to high resolution
image showing d lattices; (B) Energy dispersive
X-ray analysis
showing Ag but no impurities; (C) zeta potential of different prepared samples; (D) DLS of samples in cell culture medium
showing well - dispersed nanoparticles.
The Oasis has a new option in
X-Ray called «
Images» which will show you all of the images in a book you are re
Images» which will
show you all of the
images in a book you are re
images in a book you are reading.
Courtesy of Leticia Materi, PhD, DVM Both
images show X-rays of a rabbit heart, and the highlight indicates the approximate size.
Nervous tissue, which contains a lot of water, is not
imaged by
x-rays but is
shown in great detail by MRI.
X-ray images of effected dogs
showed no fractures or injuries to the spine.
The left
image shows a bladder stone that was removed from a rabbit; the right
image is an
X-ray of a bladder stone in a rabbit.
© Leticia Materi, PhD, DVM The left
image shows a bladder stone that was removed from a rabbit; the right
image is an
X-ray of a bladder stone in a rabbit.
An intravenous pyelogram would be used after an
X-ray, as some mineral composites do not
show up on
X-ray images.
Barium
shows up well on
x-rays and it accumulates just ahead of the stricture (or blockage)-- as in this
image or this article (ref) A barium slurry, being a liquid with the consistency of cream, passes.
For example, if a
X-ray showed a patient's heart to be enlarged, an ultrasound can provide the doctor with detailed
images of the heart's structure (valves, chamber size and wall thickness, etc.) as well as
images of the heart as it functions (blood flow — direction and volume).