View allAll Photos Tagged smooth
Manual Zooming for Freer Capture
By connecting to the dedicated mobile APP, ZY Play, via Bluetooth, Smooth-Q allows instant zooming control of the camera right through the stabilizer. With a single push or pull of the switch, you can focus and capture the moment more freely.
Enhanced Motor Torque with Greater Applicability
Smooth-Q not only can support PLUS-size smartphones, but further allows external add-ons, such as lenses, light-compensating lamp, and microphone etc, to support a wider range of applications.
Empowered by Newly Optimized Stabilizing System
Empowered by the 5th Gen. Instune Algorithms combined with world's advanced electronic stabilizing system, Smooth-Q has realized 40% improvement in its torque output, supporting a max. payload of 200g.
Multiple Intelligent Controls
With the various innovative functions of the ZY Play, Smooth-Q not only perfects your footage with nice cinematic impact, but also realizes multiple smart controls. By activating the Object Tracking function, the gimbal and phone camera will be configured to follow and focus the target automatically, so now you can record any live moment. In addition, it also supports time lapse, slow motion, long exposure, multiple filters and more to inspire your creativity.
Greater in Power, Lighter in Weight
Powered by a built-in rechargeable battery, Smooth-Q not only supports an ultra-long continuous runtime up to 12 hours, but further backs up for extended mission allowing connection with portable power source through USB port. Saving your time and load with a super compact construction of only 440g, with it, now you can really travel light without missing a single moment on the road.
Convenient Charging Anywhere Anytime
Designed with a Micro USB power input port on the side, Smooth-Q allows convenient direct charging from any fixed or portable power source via a USB port, and you will never miss any important moments with Smooth-Q in hand.
5V Power Output For Real-time Charging
A 5V/2000mA power output port on the gimbal allows convenient real-time charging to the smartphone, enhancing both the portability and practicability of phone-shooting to utmost extent.
Individualized Multi-color Design
Ergonomically constructed with special made high molecular compound material, Smooth-Q is offered in 4 fashionable color schemes – JET BLACK, GOLD, ROSE GOLD & SPACE GRAY -- to match your individual style.
Sonoita Smooth - Part of the sunset skyscape over Sonoita Arizona has streaks of clouds in gentle, smooth layers of pink, purple, blue, gray and the last of the sunshine showing as glowing pink to yellow streaks.
I am a transplant from the north and have never encountered this type of tree before. The bark is very, smooth compared to what I am used to. The only time I've seen that gray/white pattern is on camoflauge and I often wondered where it could possibly be used. Now I know it would work in South Carolina.
This tree is very beautiful.
Can anyone tell me what kind of tree this is?
Smooth Snake -Coronella austriaca - Ash Ranges, Surrey
Credit:© Natural England/Des Sussex
Summer 2017
Deep Cove Brewers and Distillers have entered the nitrogenated beer game with their Nitro Stout called the Smooth Criminal. This beer is black in colour and needs to be poured quite aggressively as most nitrogenated beers do. As the label depicts you should “Pour Me Hard” in order to release the nitrogen from solution. Pouring with vigor this beer releases a thin finger of silky, creamy head
Frame :*VELO ORANGE* neutrino Painted by COOK PAINT WORKS
Head set :*CHRIS KING* nothreadset
Wheels :*VELOCITY* dyad rim × *PHILWOOD* iso disc hub
Tires :*SCHWALBE* big apple
Stem :*PAUL* boxcar stem
Handle :*SURLY* moloko bar
Brake :*PAUL* klamper post mount disc calliper
Brake Lever :*PAUL* love lever compact
Chainring: *WOLF TOOTH COMPONENTS* drop stop chainring
Saddle :*BROOKS* carved cambium
Seat Post :*VELO ORANGE* cru medium setback seatpost
Seat Clamp :*THOMSON* seat clamp
Grip :*ERGON* GP1 ergo grips small
Skewer :*VELO ORANGE* grand cru quick release
Pedal :*MKS* allways pedal
Stand:*PLETSCHER* double kickstand
Fender:*VELO ORANGE* 20" smooth fenders
Bag:*SWIFT INDUSTRIES* zeitgeist pack
Early juveniles in August when all or most adults dead. Similar form to adults, but periostracum thinner and paler, and spire protrudes less.
Maximum dimension 4.1 mm and 3.3 mm, Portlethen, north-east Scotland, August 1970.
Full SPECIES DESCRIPTION BELOW
Revised PDF available at www.researchgate.net/publication/372768813_Lacuna_pallidu....
Sets of OTHER SPECIES at: www.flickr.com/photos/56388191@N08/collections/
Lacuna pallidula (da Costa, 1778)
Synonyms: Cochlea pallidula da Costa, 1778; Lacuna neritoidea Gould, 1840; Lacuna patula Thorpe, 1844; Lacuna retusa Brown.
Current taxonomy: WoRMS www.marinespecies.org/aphia.php?p=taxdetails&id=140168
Vernacular: Pallid chink shell; Pale lacuna; Gwichiad agennog gwelw (Welsh); Lacuna pâle (French); Lavspiret grubesnegl (Danish); Bleke scheefhoren (Dutch); Blek lagunsnäcka (Swedish).
Shell description
The largest dimension of female shells is up to about 12 mm fig. 01 flic.kr/p/2kNQ7pc and males grow to 6 mm. The species has an annual life cycle; all or most adults are dead by June. Their small juvenile offspring occur in summer fig. 02 flic.kr/p/2kGH2G9 , growing to full size in winter. The body whorl forms the great majority of the shell, and the very small spire is sunk below the upper margin in most views. Juveniles are similar in form with a slightly lower spire. Sutures between the whorls are distinct. The smooth surface has no sculpture apart from numerous, growth lines.
One face of the hollow columella is missing, exposing a long wide columellar groove (lacuna, chink or canal), leading to a large funnel-like umbilicus fig. 03 flic.kr/p/2kNL1YB . On some specimens the columellar groove is indistinct and the umbilicus reduced fig. 04 flic.kr/p/2kNPCc9 and fig. 05 flic.kr/p/2oQ83ra .
The very large ‘D’ shape aperture is as high as the whole shell, and it occupies about 75% of the area in apertural-view images fig. 01 flic.kr/p/2kNQ7pc . The palatal lip is semi-circular, and it continues along the abapertural side of the columellar groove. The wide, white columellar lip forms the adapertural edge of the groove fig. 03 flic.kr/p/2kNL1YB .
The ‘D’ shape operculum is a rapidly expanding oligogyrous spiral with its off-centre nucleus close to the base of the columellar lip. It is transparent, tinted yellow fig. 04 flic.kr/p/2kNPCc9 & fig. 06 flic.kr/p/2kNL1Ut or nearly colourless fig. 05 flic.kr/p/2oQ83ra . The substantial periostracum is olive-brown with distinct growth lines on large specimens fig. 07 flic.kr/p/2kNQ773, and it usually extends beyond the lip of the aperture fig. 04 flic.kr/p/2kNPCc9 . Under the periostracum, the calcareous shell is white or yellowish white fig. 01 flic.kr/p/2kNQ7pc . Live adults with a thick opaque periostracum are olive-green/brown in water fig. 08 flic.kr/p/2kNPC3g becoming dull brown when dead and dried fig. 01 flic.kr/p/2kNQ7pc . There are no coloured bands or variegation at any stage.
Body description
The flesh is translucent white with varying amounts of yellow or pink tinting fig. 07 flic.kr/p/2kNQ773 and fig. 05 flic.kr/p/2oQ83ra . The snout is ventrally slit fig.06 flic.kr/p/2kNL1Ut and usually rolled into a cylinder fig. 09 flic.kr/p/2oQ92WM . The extended cephalic tentacles are long, smooth, translucent whitish and taper to a blunt tip. When contracted they wrinkle and any yellow tint is intensified fig. 08 flic.kr/p/2kNPC3g . There is a black eye on a slight bulge at the base of each tentacle fig. 07 flic.kr/p/2kNQ773 . The roof of the mantle cavity is whitish translucent showing the colour of the shell except for the mantle edge which is thick and sometimes yellowish fig. 09 flic.kr/p/2oQ92WM . The foot is white with varying amounts of yellow or pink fig. 07 flic.kr/p/2kNQ773 , especially on the opercular disc which supports, and is visible under and through, the transparent operculum fig. 05 flic.kr/p/2oQ83ra and fig. 09 flic.kr/p/2oQ92WM . The two small, flat metapodial tentacles protrude beyond the posterior of the operculum fig. 09 flic.kr/p/2oQ92WM .
Key identification features
Lacuna pallidula
1) Columellar groove (lacuna or chink) leads to umbilicus fig. 01 flic.kr/p/2kNQ7pc but is sometimes sealed over fig. 04 flic.kr/p/2kNPCc9 .
2) Largest dimensions up to 12 mm (female) and 6 mm (male). Hardly any of the spire protrudes beyond the body whorl fig. 01 flic.kr/p/2kNQ7pc
3) Very large ‘D’ shape aperture equals shell height and occupies about 75% of area in apertural view fig. 01 flic.kr/p/2kNQ7pc.
4) Shell olive-brown with no spiral bands fig. 08 flic.kr/p/2kNPC3g .
5) Body white fig. 07 flic.kr/p/2kNQ773 , sometimes yellowish or pinkish; no grey stipple.
6) Found mainly on Fucus serratus and sometimes on Laminaria.
Similar species
Lacuna parva (da Costa, 1778) fig. 10 flic.kr/p/2kNL1A2 .
1) Columellar groove (“lacuna” or “chink) leads to umbilicus. 2) Usual maximum height 4 mm; sometimes 6 mm. Spire 30% to 40% of shell height.
3) Aperture occupies about 50% of area in apertural-view images.
4) Body whorl has three brown spiral bands; basal band 1 easily overlooked if base of shell not examined. Some shells are uniform white or brown with no bands.
5) Body translucent white, usually stippled grey.
6) Found mainly, especially when young, on small red weeds. Sometimes on fucoids.
Littorina fabalis (W. Turton, 1825) and
L. obtusata (Linnaeus, 1758) fig. 11 flic.kr/p/2kNPBJk .
1) No columellar groove or umbilicus.
2) Maximum dimension up to 17 mm. Very large body whorl and small spire.
3) Aperture occupies about 50% of area in apertural-view images.
4) Shell of L. obtusata is sometimes greenish olive.
5) Body varied shades of yellow, brown or black.
6) Found on Fucus serratus (L. fabalis) or Ascophyllum (L. obtusata) and on Fucus vesiculosus (both).
Lacuna vincta (Montagu, 1803) fig. 12 flic.kr/p/2kNQ6PK .
1) Columellar groove (“lacuna” or “chink”) leads to umbilicus. 2) Maximum height about 10 mm. Well developed spire about 50% of adult shell height, and about 30% on juveniles less than 3 mm high.
3) Aperture occupies about 30% of area in apertural-view images of full grown adults.
4) Body whorl has four brown spiral bands.
5) Body whitish with grey, yellow, orange and/or aquamarine parts.
6) Found on Laminaria and, especially juveniles, on small red weeds. Also on Zostera and sometimes on fucoids.
Lacuna crassior (Montagu, 1803) fig. 13 flic.kr/p/2kGH26u
1) Wide white columellar shelf. Usually no groove or umbilicus but sometimes small ones present.
2) Distinct spire about 50% of mature shell height, about 45% when younger.
3) Aperture occupies about 30% of area in apertural view.
4) Shell when live, has translucent, yellowish-brown spire and brownish-white body whorl. Thick periostracum has distinct, raised, transverse (costal) ridges. Dead dry shells are dull yellowish-brown if periostracum retained, yellowish white with faint spiral lines if periostracum worn off.
5) Body translucent whitish.
6) A rare species which often associates with the bryozoan Alcyonidium diaphanum.
Habits and ecology
L. pallidula feeds on the surface of Fucus serratus (Smith, 1973) and Laminaria (Lebour, 1937) near low water on rocky shores and to 70 metres depth. It is usually absent where turbidity or soft substrate prevents growth of F. serratus. It cannot survive desiccation. Some populations live in the Baltic in salinity down to 12‰.
It moves with a bipedal stepping motion, lifting alternately the right and left sides of the foot. It breeds in late winter and spring, sometimes extending into summer and autumn, with a maximum in February to May in Britain, but precise dates vary regionally. The spawn mass is a low gelatinous dome with an almost circular, oval base (not kidney-shape), diameter 3.9 mm to 5.3 mm (Lebour, 1937), laid on fronds of F. serratus or Laminaria. There are up to about 200 ova per spawn mass fig. 14 flic.kr/p/2kNQ71M . In the low salinity Øresund, Denmark, the masses are smaller with as few as 13 ova (Thorson, 1946 in Fretter & Graham, 1962).
Fretter and Graham (1962) reported confusion with the spawn of “Littorina littoralis” (the name mistakenly used formerly by British authors for an aggregate of Littorina obtusata and L. fabalis). The limited material examined for this account suggests the confusion is with L. fabalis which lives on F. serratus at the same shore level and lays similar, almost circular oval spawn masses, while L. obtusata lives higher up the shore, favouring Ascophyllum, and often lays kidney-shaped spawn masses up to 7 mm long. The difference between the spawn masses of L. fabalis and Lacuna pallidula may be that the latter has a distinctly bevelled peripheral rim while the surface of the former slopes to the substrate without a break in slope fig. 14 flic.kr/p/2kNQ71M . But more investigation is required to test these suggestions; the difference might be due to age of spawn mass. Lacuna parva also has similar spawn but it is found on red algae and is smaller, about 2.5 mm diameter with about 50 ova in Britain fig. 14 flic.kr/p/2kNQ71M ; 2.2 mm to 2.5 mm with 6 to16 ova in the brackish Øresund (Ockelmann & Nielsen, 1981 in Wigham & Graham, 2017).
The individual egg capsules of L. pallidula become angular as they swell and become crowded and compressed. There is no planktonic veliger stage; young emerge as tiny crawling snails. Through a microscope, just before hatching, two tentacular extensions of the opercular disc protruding beyond the operculum may be detected on the embryos within the clear capsules (Fretter & Graham, 1962). Males die after mating, and the females about a month later, so all or most adults breeding in the main period are dead by June or July, and few specimens over 5 mm high can be found in August fig. 02 flic.kr/p/2kGH2G9 . Both sexes grow rapidly until October. From October to February males grow slowly, but females at three times their rate so that by breeding time they are over twice as high as males (Thorson, 1946 in Fretter & Graham, 1962). When mating, the small male rides on the female’s shell near the aperture with his penis inserted into her mantle cavity.
Distribution and status
L. pallidula occurs from northern Norway and Iceland to Atlantic Spain and New England (USA). GBIF map www.gbif.org/species/2301181
It is found all around Britain and Ireland, but is scarce or absent in the north-eastern Irish Sea and southern North Sea where lack of hard substrate and/or turbidity hinder the growth of Fucus serratus and Laminaria. UK distribution map NBN species.nbnatlas.org/species/NBNSYS0000175975#tab_mapView
Acknowledgements
For use of an image, I thank Rob Durrant.
References and links
Forbes, E. & Hanley S. 1849-53. A history of the British mollusca and their shells. vol. 3 (1853), London, van Voorst. archive.org/details/historyofbritish03forbe/page/56/mode/2up
Also plate LXX11 at end of vol.4, fig. 1 & 2, also fig. 3 & 4 labelled “L. patula” archive.org/details/historyofbritish04forbe/page/n459/mod...
Fretter, V. and Graham, A. 1962. British prosobranch molluscs. London, Ray Society.
Graham, A. 1988. Molluscs: prosobranch and pyramidellid gastropods. Synopses of the British Fauna (New Series) no.2 (Second edition). Leiden, E.J.Brill/Dr. W. Backhuys. 662 pp.
Jeffreys, J.G. 1862-69. British conchology. vol. 3 (1865). London, van Voorst.
archive.org/details/britishconcholog03jeffr/page/350/mode...
Lebour, M.V. 1937. The eggs and larvae of the British prosobranchs with special reference to those living in the plankton. J. mar. biol. Ass. U.K., 22: 105 – 166. plymsea.ac.uk/953/
Ockelmann, K. W. and Nielsen, C. 1981. On the biology of the prosobranch Lacuna parva in the Øresund. Ophelia 20: 1-16.
Abstract at www.tandfonline.com/doi/abs/10.1080/00785236.1981.10426559
Smith, D. A. S. 1973. The population biology of Lacuna pallidula (da Costa) and Lacuna vincta (Montagu) in north-east England. J. mar. biol. Ass. U.K., 53: 493-520.
Thorson, G. 1946. Reproduction and larval development of the Danish marine bottom invertebrates. Meddelelser fra Kommissionen for Danmarks Fiskeri- og Havundersøgelser, Serie Plankton 4: 1-523.
Wigham, G.D. & Graham, A. 2017. Marine gastropods 2: Littorinimorpha and other, unassigned, Caenogastropoda. Synopses of the British Fauna (New Series) no.61. (344 pages). Field Studies Council, Telford, England.
Glossary
‰ = (salinity) parts salt per thousand parts water (brackish <30‰).
abapertural = away from the aperture.
abapical = away from the apex of the shell.
adapertural = towards the aperture
adapical = towards the apex of the shell.
aperture = mouth of gastropod shell; outlet for head and foot.
apical = at or near the apex.
chink = (see columellar groove).
columella = solid or hollow axis around which gastropod shell spirals; concealed except next to aperture where hollow ones may end in an umbilicus, slit or siphonal canal.
columellar = (adj.) of or near central axis of spiral gastropod,
columellar groove = Groove where one face of hollow columella missing, terminates in umbilicus. Also called “lacuna” or “chink.
columellar lip = lower (abapical) part of inner lip of aperture.
cephalic = (adj.) of the head.
costa = (pl. costae) rib crossing a whorl of a gastropod shell at about 90° to direction of coiling and any spiral ribs or lines.
costal = (adj.) of, or arranged like, costae.
ctenidium = comb-like molluscan gill; usually an axis with a row of filaments either side.
height = (of gastropod shells) distance from apex of spire to base of aperture.
lacuna = (see columellar groove).
mantle = sheet of tissue that secretes the shell and forms a cavity for the gill.
oligogyrous = (of a spiral) having few turns.
operculum = plate of horny conchiolin used to close shell aperture.
palatal lip = outer lip of gastropod aperture.
parietal lip = upper (adapical) part of inner lip of gastropod aperture that lies, often as a glaze, on surface of whorl.
periostracum = thin horny layer of conchiolin often coating shells.
plankton = animals and plants that drift in pelagic zone (main body of water).
protoconch = apical whorls produced during embryonic and larval stages of gastropod; often different in form from other whorls.
suture = groove or line where whorls adjoin.
umbilicus = cavity up axis of some gastropods, open as a hole or chink on base of shell, sometimes sealed over.
umbilical groove = narrow slit opening of umbilicus on some gastropods.
veliger = shelled larva of marine gastropod or bivalve mollusc which swims by beating cilia of a velum (bilobed flap).
I was really worried that my model wasn't very smooth because of the careless mesh topology, but I applied a subsurf modifier to the outer skin which (although not perfect) made a great improvement. The downside was that the resulting huge number of polygons made the file sizes too large to upload to shapeways *humph*. I thought I'd reached a dead-end... but then I used the decimate modifier to reduce the polygons - I thought this would in turn reduce the quality, but somehow the detail remains! Woot!
I still anticipate having to do quite a lot of priming and sanding to the 3d print - if it actually materialises!
Sorry for the long and boring narration, but this is all new for me and I feel like I need to write it down!
“Twenty years from now you will be more disappointed by the things you didn’t do than by the ones you did do. So throw off the bowlines, sail away from the safe harbor. Catch the trade winds in your sails. Explore. Dream. Discover.”
- Mark Twain
(I've used this quote before, I know... but it's one of my favorites!)
slow shutter sht of an escalator at Incheon International Airport in Seoul Koreakorea incheon escal.
The Smooth twisty hallway that connects the George Washington Bridge Bus Terminal to the 175th Street Station
I had to look this up to identify it, and I think it is a female smooth newt. Does any know for sure?
Smooth Lights
a sample HDR image merging 4 shots.
Location: Jeddah, Saudi Arabia
Photo & Edit: Abdulhameed Shamandour
Crews from Farrow Concrete smooth the concrete in front of a truss screed, which is used to vibrate and push the mix more evenly. Crews placed about 660 cubic yards of concrete to form the first of 17 base slabs in the SR 520 Pontoon Conctruction Project casting basin. Local contractor Bayview Redi-Mix provided the mix for the July 8, 2011 pour.
this one literally turned up on the doorstep New Years Eve.....took a couple of images and put it safe in the rockery .....
Smooth fox Terrier competing in the Houston All Terrier Group Show, NRG Center, Houston, Texas. July 15, 2015
10 July 2009. The entrance to Charlton House Medical Centre, High Road, Tottenham.
Here's an update on my photos at this location in September 2008.
Q : Was work completed to provide a single grade (no kerbs) over this crossing?
A : Yes it was. And here's the smooth result.
Q : Did I ever get a reply to my suggestion about involving people with disabilities at the early planning stages of new road and pavement works?
A : No. In this fusty musty corner of Haringey Environment Department learning is rarely on the menu. As the management writer Cyril Northcote Parkinson explained: "Delay is the deadliest form of denial".
________________________________________________
§ Illustration of the front cover of Parkinson's: "The Law of Delay".
"The theory of Negation by Delay depends upon
establishing a rough idea of what amount of delay
will equal negation. If we suppose a drowning man
will call for help, evoking the reply 'In due course',
a judicious pause of five minutes may constitute
for all practical purposes, a negative response."
My Steve Knight coffin smoother hand plane. Steve will build you a fine wood plane and you get to pick the wood. Wood planes have a special feel to them: wood on wood feels better than metal on wood, IMHO.
For the non-woodworker: planes are used to flatten and smooth wood. There is a whole science to them.
Why use sandpaper?