fluids.ac.uk Report : Visit Site

Technical data of the fluids.ac.uk

Geo IP provides you such as latitude, longitude and ISP (Internet Service Provider) etc. informations. Our GeoIP service found where is host fluids.ac.uk. Currently, hosted in United Kingdom and its service provider is Mythic Beasts Ltd .

the related websites

oil-drilling-fluids.com performancefluids.co.uk aidsmap.com ofite.com sip.com hse.gov.uk lubetrend.com exol-lubricants.com exploreforensics.co.uk callingtonhaven.com 

HTTP Header Analysis

HTTP Header information is a part of HTTP protocol that a user's browser sends to called nginx/1.12.2 containing the details of what the browser wants and will accept back from the web server.

DNS

HtmlToText

sig srv talks resources directory competition connect login this site will not work properly while javascript is disabled. your browser does not support the video tag. jetting of droplet induced by zno-si surface acoustic waves richard fu (northumbria university) 'this is a high speed video showing jetting behaviour of a 20μl water droplet induced by zno surface acoustic waves (from left side). the jetting is induced by sub-nanometre amplitudes of surface acoustic waves interacting with water droplet, causing the droplet jetting along rayleigh angle. however, due to a combination of acoustic pressure, internal flow, gravity force, surface tension and capillary, the droplet has been deformed significantly before fully jetted from substrates. ' simulated sperm swimming in synchrony simon schöller (imperial college, london) a computer-generated image of model sperm cells suspended in a stokesian fluid, including the fluid velocity field. all sperm cells swim in the same plane and interact hydrodynamically, leading to visible cluster formation and locally enhanced flows. liquid crystal seagull nikita solodkov (university of leeds) ‘"we should show life neither as it is, nor as it should be, but as we see it in our dreams" (the seagull, by anton chekhov). liquid crystal droplets in water, (accidentally) forming a pattern resembling a seagull's landing, viewed through a cross-polarising microscope.’ petal-like fluid-driven fracture patterns niall o’keeffe (university of cambridge) ‘a fluid-driven fracture propagates radially in a transparent hydrogel. the fracture surface, post experiment, consists of beautiful fractal patterns called step-lines. these are small changes in height along the surface of the gel, which follow a logarithmic spiral shape.’ spatio-temporal feathering in elastic channels callum cuttle (university of manchester) ‘composite binary images showing the spatio-temporal patterns formed when air displaces oil in a hele-shaw channel with an elastic upper boundary. by manipulating the initial level of collapse of the upper boundary, as well as the flow rate, we may observe a range of patterns, some reminiscent of feathers.’ interfacial waves in the two-layer rotating annulus paul williams two immiscible layers represent the stratified mid-latitude atmosphere, and internal interfacial waves develop and interact nonlinearly. a wide range of wave behaviours are observed: for example, the left-hand image shows two packets of spontaneously emitted inertia-gravity waves in the troughs of a large-scale baroclinic wave, while the right-hand image shows a rotationally modified kelvin-helmholtz wave generated from shear instability at sub-critical richardson number. an optically active liquid generates different colours according to interface height. (accidental) double-diffusive instability megan davies wykes (university of cambridge) ‘heat from lamps above the experiment is absorbed by dyed, salty fluid, heating it up and making it less dense. this warm fluid rises, but the heat diffuses away, leaving dense, salty fluid in narrow vertical plumes.’ shock-waves over a flexible surface in a supersonic wind tunnel michela gramola (imperial college, london) 'the images show the evolution of the structure of a shock-wave formed on a flexible aluminium plate as the supersonic flow interacts with the changing geometry of the deforming surface. each pop art-inspired image is a composite of eight individual frames acquired using schlieren photography in a supersonic wind tunnel.' featured sig: low-energy ventilation leader: cath noakes (leeds) co-leader: henry burridge (imperial college, london) we are a group of academics and industrialists who develop ventilation strategies that provide higher air quality with lower energy in modern buildings. we meet throughout the uk to discuss current research, industrial practice, and future projects. for more details about our group, meetings and repository on ventilation research, go to http://www.lowenergyventilation.org. the effect of stratification on kelvin-helmholtz instability chris howland (university of cambridge) this image is a composite of five vorticity time series from simulations of stratified shear layers with increasing stratification. each pixel column corresponds to a single time step from each simulation. your browser does not support the video tag. the hydrodynamics of plesiosaurs luke muscutt (university of southampton) ‘a combination of data from simulations and experiments on tandem flapping flippers.’ your browser does not support the video tag. droplet splashing on super-hydrophobic substrate (experiment or simulation?) kensuke yokoi a numerical simulation of droplet splashing on a super-hydrophobic substrate. the numerical method is based on clsvof, vsiam3, cip-csl scheme, density-scaled balanced csf model. your browser does not support the video tag. acoustic eruption elijah nazarzadeh (university of glasgow) 'this video shows the transfer of mechanical energy and radiative pressure from surface acoustic waves (saws) traveling along a solid surface into a droplet of water, dropped in the propagation path of saws, at 100k fps acquisition (slowed down 500 and 1500 times). the behaviour resembles an eruption and is used in medicine nebulisers.' your browser does not support the video tag. forces in a photoelastic avalanche amalia thomas (university of cambridge) ‘photoelastic discs are rolled down a narrow, inclined chute. the forces exerted when discs interact can be inferred from the intensity of the light they transmit. this information can be used to investigate how stresses are distributed within avalanches.’ your browser does not support the video tag. wrinkly impact maxime inizan, finn box, alfonso castrejon-pita & dominic vella (university of oxford) ‘when a solid sphere hits an elastic sheet floating on the surface of water, wrinkles form and a capillary-like ripple propagates. the ripple propagates and the wrinkles grow with time — all due to an interplay between the elasticity of the sheet and the inertia of the fluid.’ ‘halo’ vortex ring lifts dandelion seeds cathal cummins, madeleine seale, enrico mastropaolo, naomi nakayama & ignazio maria viola (university of edinburgh) (left) a dandelion seed in a wind tunnel, with added clouds for effect. (right) the same dandelion with the flow around it visualised using a laser sheet, showing the formation of a drag-enhancing vortex unlike any other observed before in nature, which we term a 'halo' vortex. your browser does not support the video tag. wake partita lian gan (durham university) this raw video shows wake pattern behind an oscillating cylinder. the forcing amplitude keeps constant; the frequency linearly ramps down. it is part of a systematic study where ramping up and down at various rates. compared to the fixed frequency cases, ramping results in wake mode transition, skipping and hysteresis. your browser does not support the video tag. demonstration of flowave clive greated (university of edinburgh) ‘demonstration of the capabilities of flowave. the principles of three-dimensional wave generation on which it is based were researched back in the early 80's by bryden and greated (j. phys. d: appl. phys. 17, 1984).’ previous next what's new home page photos and videos 31 july 2018 10:47am click on the external link icon next to the title to view each photo and video in its full glory. read more short research visits 31 july 2018 10:45am latest batch of short research visits, closing date for proposals tuesday 31 july. read more photo/video competition #4 31 july 2018 10:44am open theme, any fluids-related topic eligible. deadline for entries: tuesday 31 july. read more what's on new fluid and elasticity 2019 24-26 june 2019, malaga, spain multidisciplinary conference on fundamental problems involving coupling between a fluid and a deformable body. abstract deadline 1 feb 2019. conference website https://fluidelasticity2

URL analysis for fluids.ac.uk

https://fluids.ac.uk/files/logo_2017_02_grey_ncd_v2.1527698329.png
https://fluids.ac.uk/connect
https://fluids.ac.uk/pictures/carousel/p3b.1_seagull_headshot3_16to9_1024w.jpg
https://fluids.ac.uk/directory
https://fluids.ac.uk/competition
https://fluids.ac.uk/files/08_photo_180331.1522825653.png
https://fluids.ac.uk/files/14_cuttle_truncated.1523960594.png
https://fluids.ac.uk/researcher-resources
https://fluids.ac.uk/files/03_photo.1512131201.png
https://fluids.ac.uk/pictures/carousel/p4a.1_niall_crop2_centred_16to9_1024w.jpg
https://fluids.ac.uk/talks
https://fluids.ac.uk/pictures/carousel/p1.1_megan_crop_16to9_1024w.jpg
https://fluids.ac.uk/#carousel
https://fluids.ac.uk/files/williams_2-up.1536656204.jpg
https://fluids.ac.uk/srv
downloads.sms.cam.ac.uk
epsrc.ac.uk

Whois Information

Whois is a protocol that is access to registering information. You can reach when the website was registered, when it will be expire, what is contact details of the site with the following informations. In a nutshell, it includes these informations;

No such domain ac.uk


  REFERRER http://www.nominet.org.uk

  REGISTRAR Nominet UK

SERVERS

  SERVER ac.uk.whois-servers.net

  ARGS ac.uk

  PORT 43

  TYPE domain

  REGISTERED no

DOMAIN

  NAME ac.uk

NSERVER

  NS4.JA.NET 193.62.157.66

  NS1.SURFNET.NL 192.87.106.101

  NS3.JA.NET 193.63.106.103

  DNS-3.DFN.DE 193.174.75.58

  NS2.JA.NET 193.63.105.17

  NS0.JA.NET 193.63.94.20

  AUTH03.NS.UU.NET 198.6.1.83

Mistakes

The following list shows you to spelling mistakes possible of the internet users for the website searched .