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Messier 98
Messier 98
Messier 98
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Messier 98
Galaxy Messier 98 by ESO New Technology Telescope
Observation data (J2000 epoch)
ConstellationComa Berenices
Right ascension12h 13m 48.292s[1]
Declination+14° 54′ 01.69″[1]
Redshift−0.000474[2]
Heliocentric radial velocity−142 ± 4 km/s[2]
Distance44.4 million light years (13.6 Mpc)[3]
Apparent magnitude (V)10.1[4]
Characteristics
TypeSAB(s)ab[3]
Apparent size (V)9′.8 × 2′.8[5]
Other designations
NGC 4192, UGC 7231, PGC 39028[2]

Messier 98, M98 or NGC 4192, is an intermediate spiral galaxy about 44.4[3] million light-years away in slightly northerly Coma Berenices, about 6° to the east of the bright star Denebola (Beta Leonis). It was discovered by French astronomer Pierre Méchain on 1781,[a] along with nearby M99 and M100, and was catalogued by compatriot Charles Messier 29 days later in his Catalogue des Nébuleuses & des amas d'Étoiles.[5] It has a blueshift, denoting ignoring of its fast other movement (vectors of proper motion), it is approaching at about 140 km/s.[2]

The morphological classification of this galaxy is SAB(s)ab,[3] which indicates it is a spiral galaxy that displays mixed barred and non-barred features with intermediate to tightly wound arms and no ring.[6] It is highly inclined to the line of sight at an angle of 74°[7] and has a maximum rotation velocity of 236 km/s.[8] The combined mass of the stars in this galaxy is an estimated 76 billion (7.6 × 1010) times the mass of the Sun. It contains about 4.3 billion solar masses of neutral hydrogen and 85 million solar masses in dust.[9] The nucleus is active, displaying characteristics of a "transition" type object. That is, it shows properties of a LINER-type galaxy intermixed with an H II region around the nucleus.[10]

Messier 98 is a member of the Virgo Cluster, which is a large cluster of galaxies, part of the local supercluster.[11]

About 750 million years ago, it may have interacted with the large spiral galaxy Messier 99. These are now separated by 1,300,000 ly (400,000 pc).[8]


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References

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Messier 98

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Messier 98 (NGC 4192), also known as M98, is an of morphological type SAB(s)ab, located approximately 44 million -years away in the constellation . It is a member of the and exhibits a nearly edge-on orientation from , revealing a prominent dust lane that reddens its and highlights regions of active along its arms and in its luminous central nucleus. The galaxy has a of approximately 76 billion solar masses, along with abundant neutral gas and interstellar dust, contributing to its classification as a low-ionization nuclear emission-line region (LINER) . With an apparent visual magnitude of 10.1 and angular dimensions of about 9.8 by 2.8 arcminutes, M98 has a of -107 km/s, indicating it is blueshifted and approaching the . Discovered on April 13, 1781, by French astronomer Pierre Méchain, M98 was subsequently included in Charles Messier's famous catalog of deep-sky objects as the 98th entry, compiled to aid hunters in avoiding confusion with nebulous appearances. One of the fainter Messier objects, it requires a of at least 4-inch under for clear visibility, best observed in spring when is high overhead. Physically, M98 spans roughly 130,000 light-years in diameter and possesses a disturbed disk suggestive of past gravitational interactions within the Virgo Cluster. Its active nucleus outshines much of the surrounding disk, powered by processes not fully understood but likely involving supermassive black hole activity or intense starburst episodes. Hubble Space Telescope observations from 1995, using the Wide Field and Planetary Camera 2 in visible and infrared wavelengths, have revealed intricate details of its star-forming knots and dusty filaments, aiding studies of galaxy evolution in dense clusters. As part of the —the nearest major galaxy cluster to the Local Group—M98 serves as a key example for research on cluster dynamics, infalling galaxies, and the effects of environment on spiral structure preservation. Its blueshift reflects the complex velocity field of the cluster, where foreground motions toward the influence apparent distances and redshifts.

Discovery and Cataloging

Discovery

Messier 98 was discovered by the French astronomer Pierre Méchain on March 15, 1781, along with the nearby galaxies and , during his systematic searches for in the . Méchain, a close collaborator of , was actively engaged in comet hunting, a primary focus of astronomical observation in late 18th-century , where faint, diffuse objects like nebulae were often scrutinized to distinguish them from potential cometary tails. In his initial observation, Méchain described the object as "a without star, of an extremely faint light, above the northern wing of Virgo, on the parallel & near to the star no. 6, fifth magnitude, of , according to Flamsteed." This account, reported in the Connoissance des Temps for 1784, highlights the object's subdued appearance even under contemporary viewing conditions. At the time, Messier 98 was classified as a due to the limited resolving power of telescopes available in 1781, which could not separate the clustered stars of distant galaxies from hazy, unresolved glows. Méchain's finding was later confirmed and incorporated into Messier's catalog on April 13, 1781.

Inclusion in Messier Catalog

Pierre Méchain discovered Messier 98 on March 15, 1781, and reported it to his colleague , who measured its position and added it to his catalog on April 13, 1781, assigning it the designation M98 as the 98th entry. This addition occurred during the compilation of the catalog's third edition, which included 103 objects in total. The updated catalog, incorporating M98 and other recent discoveries by Méchain, was formally published in the Connaissance des Temps for the year 1784 (printed in 1781). As one of the final objects in Messier's original list, M98 holds historical significance as part of the core compilation completed before Messier's death in 1817, though subsequent astronomers extended the list to 110 entries. In later astronomical nomenclature, M98 received the designation NGC 4192 in the compiled by J. L. E. Dreyer and published in 1888.

Observational History

Early Observations

Following its inclusion in the Messier Catalog in 1781, Messier 98 attracted attention from leading astronomers equipped with superior telescopes, who described its nebulous appearance and structural details based on visual inspections. observed Messier 98 on December 30, 1783, using one of his reflecting telescopes, and cataloged it as a . He described it as "a large, extended fine nebula" with a bright center, noting feeble branches extending over a quarter of a degree and a few visible stars near the middle. Herschel remarked on its brightness, initially mistaking it for a new discovery despite recognizing its position matching Messier's 98th object. In the early , conducted multiple observations of the object, first in 1826 and again in 1832, cataloging it as h 1132 and later as GC 2786 in his General Catalogue of Nebulae and Clusters. He noted its elongated shape and faint extensions, describing it as "bright; very large; much elongated toward position angle 80°; pretty suddenly brighter in the middle; mottled," with a ray-like structure measuring 8' to 10' long and 30" broad in one sweep. These accounts emphasized the object's central condensation and overall linear extension, consistent with its edge-on presentation. Lord Rosse observed Messier 98 in the 1840s using his 72-inch reflector at Birr Castle, the largest telescope of the era, as part of his systematic survey of nebulae. His notes and sketches highlighted the object's elongated form with potential branching extensions, suggesting hints of spiral structure amid its hazy disk, though the telescope's resolution and the galaxy's near-edge-on orientation precluded definitive identification. Despite these details, Messier 98 remained classified as a nebula. Into the early , before 1920, Messier 98 continued to be regarded as a due to the prevailing limitations in and distance measurements, which prevented recognition of its extragalactic nature. This misclassification ended following Hubble's 1924 confirmation of the "island universe" hypothesis through observations in nearby systems like Andromeda, establishing such objects as distant galaxies composed of stars.

Modern Imaging and Studies

In the 20th century, ground-based observations with large telescopes confirmed Messier 98's classification as an and revealed prominent dust lanes within its disk, which obscure background and trace the spiral structure despite the galaxy's high inclination. These features became discernible only in instruments capable of resolving finer details beyond the limitations of earlier visual telescopes. The Hubble Space Telescope provided groundbreaking imaging of Messier 98 in 1995 using its Wide Field and Planetary Camera 2, capturing intricate details of the tightly wound spiral arms, extensive dust lanes appearing as dark threads, and bright knots of star-forming regions energized by young, massive stars. This observation highlighted the galaxy's abundance of interstellar dust and neutral hydrogen, contributing to its low surface brightness. The image, reprocessed and publicly released in 2019, underscored Hubble's role in resolving substructures invisible from the ground. Ground-based advancements continued with the European Southern Observatory's New Technology Telescope at , which imaged Messier 98 in 2016 using the EMMI instrument, emphasizing its nearly edge-on orientation and the subtle warping of its outer disk, a distortion likely resulting from past gravitational interactions within the . This view revealed pockets of young blue stars along the perimeter, contrasting with the reddish hues of dust lanes, and demonstrated the NTT's active optics in achieving high-resolution detail for faint extended objects. Radio observations, including data from 1990, further confirmed the warped neutral hydrogen disk extending beyond the optical structure. From 2020 to 2025, both amateur and professional deep-sky have trended toward longer integrations with wide-field instruments, such as those on the and community efforts using cooled sensors, to highlight Messier 98's faint outer halo and tidal debris features otherwise lost in . These efforts, often shared via platforms like AstroBin, have enhanced visualizations of the galaxy's extended envelope without uncovering major new scientific insights. A 2023 spectroscopic survey (SPRING catalogue) included Messier 98 among 30,597 local galaxies, analyzing its nuclear emission lines and classifying its activity, providing updated insights into gas properties and nuclear regions in cluster environments. Future observations with the hold potential to probe infrared emissions from its dust features and embedded , offering deeper insights into the galaxy's evolutionary history.

Location and Visibility

Coordinates and Constellation

Messier 98 is situated in the constellation , positioned near the border with Virgo and lying between the bright stars Vindemiatrix (ε Virginis) and (β Leonis). Its equatorial coordinates in the J2000 epoch are 12h 13m 48.3s and +14° 54′ 02″. In galactic coordinates, it has longitude l = 265.43° and latitude b = +74.96°, placing it well above the plane of the . The galaxy's apparent size spans a major axis of approximately 9.8 arcminutes and a minor axis of 2.8 arcminutes, giving it an elongated appearance on the sky due to its edge-on orientation. This positioning in makes Messier 98 a prominent member of the , visible in the during spring evenings from mid-northern latitudes.

Observing Conditions

Messier 98 has an apparent visual magnitude of 10.1, which makes it a faint object visible only under away from . Observers typically require at least a 4-inch to resolve its basic elongated form as a slender streak of nebulosity. From the , the optimal viewing period occurs during spring, from March to June, when the galaxy reaches opposition in the Coma Berenices region near Virgo and culminates high in the evening sky. Its edge-on orientation contributes to a low surface brightness of about 23.9 mag/arcsec², exacerbating challenges from even moderate light pollution in urban or suburban environments. Binoculars prove insufficient for detecting Messier 98, as its faintness demands optical aid beyond naked-eye or wide-field viewing. For enhanced detail, such as hints of the prominent dust lane, medium-aperture telescopes with 8- to 12-inch diameters are recommended under excellent conditions, revealing a brighter core amid the diffuse halo.

Physical Characteristics

Morphology and Structure

Messier 98, also known as NGC 4192, is classified as an SAB(s)ab intermediate spiral galaxy, featuring a weakly barred structure with moderately tightly wound spiral arms that blend characteristics of both barred and unbarred spirals. This morphological type indicates no strong bar dominance, but a subtle central bar that contributes to the overall disk dynamics without overpowering the spiral pattern. Viewed nearly edge-on at an inclination of approximately 74°, the galaxy's disk appears significantly compressed along its minor axis, accentuating its elongated silhouette and making internal features more pronounced against the backdrop of the Virgo Cluster. A prominent dust lane bisects the disk, visible as a dark, opaque band of interstellar material that obscures portions of the underlying stars and highlights the galaxy's planar structure. The core consists of a classical bulge, while the spiral arms exhibit regions of active star formation, appearing as bright blue knots of young, hot stars embedded within the older stellar population. Additionally, observations reveal a possible warp in the outer disk, where the plane bends away from alignment with the inner regions, likely influenced by tidal interactions with neighboring galaxies. This edge-on orientation and structural details make Messier 98 a compelling visual analog to an inclined view of the , showcasing a similar dust-obscured disk and layered stellar components, though it hosts a substantially larger on the order of a stars.

Size, , and

Messier 98 lies at a distance of 44.4 million light-years, or 13.6 megaparsecs (Mpc), from . This measurement is derived from surface brightness fluctuation (SBF) techniques applied to galaxies, with the scale calibrated using stars observed in nearby spirals such as NGC 4321 (M100). Independent SBF analyses of Messier 98's bulge yield consistent results within uncertainties, accounting for its heliocentric of approximately -107 km/s, which places it on the nearer side of the . The galaxy's physical extent spans an apparent angular diameter of roughly 9.8 by 2.8 arcminutes, corresponding to a major-axis of about 126,000 light-years (38.7 kiloparsecs) at the adopted . This scale underscores its classification as an intermediate spiral (SAB(s)ab), with a disk that is moderately larger than the Milky Way's in diameter but viewed at a high inclination of around 74 degrees. Estimates of Messier 98's stellar content indicate a total of 76 billion solar masses (7.6×1010M7.6 \times 10^{10} M_\odot), based on photometry and modeling from surveys of Virgo spirals. It contains about 4.3 billion solar masses of neutral hydrogen gas. Dynamical modeling, incorporating rotation curve data and the extent of the , suggests an overall mass including gas, dust, and of up to 200 billion MM_\odot. These estimates highlight the galaxy's moderate scale within the , where contributes significantly to the total .

and Dynamics

Radial Velocity

Messier 98 exhibits a blueshifted heliocentric of −142 ± 4 km/s, signifying that the galaxy is approaching the along the . This velocity measurement is derived from 21-cm neutral hydrogen (HI) line observations, which provide the Doppler shift for systemic velocity determination. measurements vary slightly between databases (e.g., -142 km/s from NED HI data vs. -107 km/s from recent studies [2022ApJS..261...21Y]), reflecting methodological differences. The corresponding redshift is z = −0.000474, a value consistent with the galaxy's location on the near side of the , where infalling members display such blueshifts relative to the cluster's overall .

Rotation and Orbital Mechanics

Messier 98 exhibits a maximum velocity of 236 km/s at the edge of its disk, as determined from 21-cm neutral hydrogen (HI) line observations that trace the of the interstellar gas. This reflects the differential characteristic of spiral galaxies, where stars and gas orbit the at speeds increasing with distance before plateauing. The rotation curve of Messier 98, derived from HI mapping, rises steeply in the inner regions before becoming remarkably flat beyond approximately 5 kpc from the center, with v(r) ≈ constant, suggesting the presence of an extended to provide the necessary for such stability. This flat profile extends to the disk's periphery, indicating that dominates the mass budget in the outer parts, consistent with observations of similar spirals. For stars orbiting at a radius of about 10 kpc, the estimated is roughly 300 million years, based on an average of 200 km/s along the . This timescale highlights the dynamical stability of the disk over cosmic epochs, though perturbations can influence long-term evolution. The outer disk of Messier 98 displays a pronounced warp, particularly evident in HI observations, where the outermost regions exhibit lagging relative to the inner disk due to possible tidal interactions within the environment. This warping manifests as variations in inclination across the disk, distorting the field and contributing to non-circular motions that challenge simple models of galactic .

Interstellar Medium

Gas and Dust Content

Messier 98 harbors a substantial reservoir of neutral hydrogen (HI) gas in its interstellar medium, with a total mass of approximately 4.3 × 10⁹ M⊙. This gas has been mapped at high resolution using the Very Large Array as part of the VIVA survey, revealing an extended HI disk that spans about 40 kpc in diameter, exceeding the stellar disk and showing lopsided morphology with enhanced emission toward the southeast. The HI distribution traces the outer regions of the galaxy, where it may be influenced by ram-pressure stripping from the intracluster medium of the Virgo Cluster. The molecular hydrogen (H₂) content, inferred from carbon monoxide (CO) line observations, is estimated at 1.8 × 10⁹ M⊙, representing about 30% of the total gas mass. These measurements come from the VERTICO survey using the Atacama Large Millimeter/submillimeter Array and the Institut de Radioastronomie Millimétrique 30 m telescope, which detect CO(2–1) emission primarily concentrated in the inner spiral arms and central regions, with peak surface densities exceeding 10 M⊙ pc⁻². The molecular gas forms dense clouds along the arms, facilitating and subsequent . Dust in Messier 98 amounts to about 8.5 × 10⁷ M⊙, distributed in prominent dark lanes visible in optical imaging that obscure stellar light and delineate the spiral structure. Far-infrared observations from the Herschel Space Observatory in the HeViCS survey reveal this dust through thermal emission at 100–500 μm wavelengths, indicating temperatures around 20–25 K and a dust-to-gas mass ratio of approximately 0.01, consistent with solar metallicity expectations. These dust features correlate spatially with the molecular gas, highlighting the intertwined nature of the interstellar components. The ongoing in Messier 98 proceeds at a rate of 1–2 M⊙ yr⁻¹, primarily fueled by the compression of gas within the spiral arms. This rate is derived from hybrid and indicators calibrated against far-infrared luminosities, reflecting efficient conversion of dense gas into stars amid the galaxy's moderately active disk.

Active Nucleus

The nucleus of Messier 98 displays low-level (AGN) activity, classified as a LINER/H II transition object based on optical . This classification arises from emission-line ratios intermediate between those of pure LINERs and H II regions, reflecting a composite mechanism involving both low-luminosity accretion onto a and by young stars. Prominent low-ionization forbidden lines, including [N II] λλ6548,6584 and [O I] λ6300, dominate the nuclear spectrum, with a measured [O I]/Hα of 0.14 indicating subdued AGN excitation rather than high-luminosity quasar-like behavior. These lines suggest shocks or a weak ionizing continuum from the central , consistent with the low overall nuclear of the galaxy. The is partially obscured by surrounding dust lanes, contributing to the observed reddening (Hα/Hβ ≈ 13). Estimates of the central mass range from 10710^7 to 10810^8 MM_\odot, derived from the bulge stellar velocity dispersion of σ132\sigma \approx 132 km s1^{-1} via the empirically calibrated MBHM_\mathrm{BH}-σ\sigma relation. This places the black hole in the typical range for intermediate-mass spirals hosting LINERs, with the low Eddington ratio (<5×104< 5 \times 10^{-4}) underscoring the mild activity level. Weak nuclear emissions in and radio bands further support the presence of a mildly active . ASCA observations detect soft-to-hard luminosity of approximately 3.8×10393.8 \times 10^{39} erg s1^{-1} (2–10 keV), with a spectrum consistent with hot stellar processes augmented by low-level accretion. VLA/NVSS radio measurements at 1.4 GHz yield a compact flux density of 24 mJy, indicative of synchrotron emission from a faint jet or corona, while higher-resolution VLA data show no strong compact core exceeding 1.3 mJy at 15 GHz. Non-detections in hard surveys, such as those from , reinforce the low-luminosity nature of the AGN.

Environment and Interactions

Membership in Virgo Cluster

Messier 98 is a confirmed member of the , the nearest large to the at a distance of approximately 16.5 Mpc. The cluster, centered on the giant M87, contains roughly 1,300 confirmed member galaxies and spans an extended structure with multiple subcomponents, including a virial core and outer clouds. As a late-type spiral, Messier 98 occupies a peripheral position in this assemblage, contributing to the cluster's diverse population of spirals that trace its outer envelope. Positioned on the near side of the , Messier 98 exhibits a blueshifted of -142 km/s (heliocentric) or -246 km/s relative to the Local Group, contrasting with the cluster's mean recession velocity of +1050 km/s. This anomaly arises from the galaxy's location ahead of the cluster's main body along the , with a projected distance of approximately 1.4 Mpc from the dynamic center at M87. Such positioning places Messier 98 within the extended virial zone of the cluster (radius ~1.8 Mpc), where peripheral members like it help delineate the cluster's three-dimensional extent. Dynamically, Messier 98 is infalling toward the center, displaying a substantial line-of-sight component of ~1300 km/s relative to the cluster mean, indicative of high-speed motion consistent with accretion onto the cluster potential. This infall pattern aligns with observations of other blueshifted Virgo members, suggesting ongoing assembly of the cluster from surrounding filaments and groups.

Interactions with Nearby Galaxies

Messier 98 (NGC 4192) is hypothesized to have experienced a high-velocity gravitational flyby interaction with the nearby Messier 99 (NGC 4254) approximately 750 million years ago. Numerical simulations indicate that this encounter involved a relative pericenter of about 1125 km s⁻¹, consistent with their differing radial velocities (NGC 4192 at -142 km s⁻¹ and NGC 4254 at +2400 km s⁻¹) and current projected separation of roughly 400 kpc, or 1.3 million light-years. This past interaction has left observable tidal signatures, including the neutral hydrogen cloud VirgoHI 21, which is interpreted as debris expelled primarily from NGC 4254 during the flyby and connected to it via a faint HI bridge; similar HI disturbances are evident around NGC 4192. The outer HI disk of Messier 98 exhibits a warp, potentially attributable to tidal perturbations from this event. Additionally, the galaxy displays prominent dust lanes and active along its spiral arms, which may reflect enhanced activity triggered by the gravitational encounter, though its overall star formation rate remains typical for Virgo spirals. Messier 98 resides approximately 7° (projected distance ~1.4 Mpc) from the Virgo Cluster's central Messier 87 (NGC 4486), placing it beyond the range for direct tidal interactions, with no evidence of significant gravitational influence from this neighbor. It forms part of the Virgo Cluster's extended northern structure, often associated with substructures like Cloud A in early mappings. Given its blueshifted indicating infall toward the cluster core, Messier 98's relatively unstripped HI envelope (deficiency of 0.51) suggests it has not yet encountered strong from the , but future approach may lead to gas stripping and morphological evolution.

References

  1. https://science.[nasa](/page/NASA).gov/mission/hubble/science/explore-the-night-sky/hubble-messier-catalog/messier-98/
  2. https://noirlab.edu/public/images/noao-m98/
  3. https://esahubble.org/images/potw1925a/
  4. https://.cds.unistra.fr/simbad/sim-basic?Ident=Messier+98
  5. https://science.nasa.gov/mission/hubble/science/explore-the-night-sky/hubble-messier-catalog/messier-98/
  6. https://simbad.cds.unistra.fr/simbad/sim-basic?Ident=Messier+98
  7. http://www.messier.seds.org/Mdes/dm098.html
  8. http://www.messier.seds.org/m/m098.html
  9. http://www.messier.seds.org/xtra/history/m-cat.html
  10. http://www.messier.seds.org/xtra/history/m-pub.html
  11. http://www.messier.seds.org/m-ngc.html
  12. https://babel.hathitrust.org/cgi/pt?id=uva.x001320331&seq=1
  13. https://science.nasa.gov/missions/hubble/hubble-catches-a-bounty-of-stars-and-cosmic-dust/
  14. https://www.eso.org/public/images/potw1636a/
  15. https://www.sci.news/astronomy/esos-new-technology-telescope-messier-98-04492.html
  16. https://www.aanda.org/articles/aa/full_html/2012/09/aa18871-12/aa18871-12.html
  17. https://app.astrobin.com/i/22ewf1
  18. https://astrojolo.com/astrophotography/galaxies/messier-98/
  19. https://www.aanda.org/articles/aa/full_html/2023/03/aa44738-22/aa44738-22.html
  20. http://www.messier.seds.org/more/virgo_obs.html
  21. https://simbad.cds.unistra.fr/simbad/sim-basic?Ident=NGC+4192&submit=SIMBAD+search
  22. https://www.universetoday.com/articles/messier-98
  23. https://theskylive.com/sky/deepsky/messier-98-object
  24. https://explorescientific.com/pages/the-messier-marathon
  25. https://www.messier-objects.com/messier-98/
  26. https://astropixels.com/galaxies/M98-01.html
  27. https://ui.adsabs.harvard.edu/abs/1990A&AS...86....7D/abstract
  28. https://ned.ipac.caltech.edu/byname?objname=NGC+4192
  29. https://www.leda.univ-lyon1.fr/
  30. https://iopscience.iop.org/article/10.1088/0004-6256/138/6/1741
  31. https://iopscience.iop.org/article/10.3847/1538-4365/ac28f5
  32. https://ui.adsabs.harvard.edu/abs/1997ApJS..112..315H
  33. https://ntrs.nasa.gov/api/citations/20000032748/downloads/20000032748.pdf
  34. https://www.aanda.org/articles/aa/full_html/2020/03/aa36172-19/aa36172-19.html
  35. https://arxiv.org/pdf/1007.1580.pdf
  36. https://iopscience.iop.org/article/10.1086/524868
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