Unable to afford staying in a hotel for an extended amount of time, the family has since returned to their residence. Now, for the first time in Night Owl history, Stephen seeks out counsel and assistance from a local witch to see if they can provide any more answers, and possible solutions, to the staff at Dripping Springs Vision Center.Ī single mother, Luna, along with her teenage son Finn and young daughter Shiloh had to recently flee their home due to unsettling activity in their home. Through interviews and psychic readings, it was theorized that some form of witchcraft may have been performed on this property in the past, and earth spirits of a mischievous nature may be trapped on the property. After investigating these claims with the team and psychic Sara, some interesting theories were brought to light. The staff experience eye frames falling off the racks, objects going missing then rediscovered in unusual places, loud recurring bangs on the interior walls, rubber balls seemingly appearing out of thin air, disembodied voices and sounds, shadow figures, and even two full-bodied apparition sightings of a female spirit in their Exam Room 2. Go to /nightowl to get a FREE 1-year supply of immune-supporting Vitamin D AND 5 FREE travel packs with your first purchase.Ī boutique vision center, nestled in the Texas Hill Country has been experiencing a plethora of unusual phenomena. Join Stephen as he dives into preliminary interviews and begins investigating the details of this new residential haunting that happened at the very start of the COVID-19 pandemic. Falling objects, ominous feelings, phantom smells, and strange sounds on their baby monitor were just a few of the things that everyone in the household were witnessing. Fleeing New York during the pandemic, Lukas’s sister Abby would move in as well and the four residents would start to experience a growing number of strange happenings. But with a new baby arriving and an unexpected pandemic unknowingly about to hit our country, Whitney and Lukas were about to face one of the most challenging times of their lives. They had their first baby on the way and Whitney’s sister, Erika, transitioning with them until she could find a place of her own. In December of 2019, husband and wife, Lukas and Whitney, began a new chapter of their life in a new home they purchased in Austin Texas.
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"America: It's like Britain, only with buttons. That's how life works, but it's not bugging me anymore." 32.I think we should have an understanding and love. 31.Do you remember when everyone began analyzing Beatles songsI don’t think I ever understood what some of them were supposed to be about. "People only look at me as a Beatle, but my friends look at me as a whole person. 30.I like Beethoven, especially the poems. What's wrong with that? Otherwise you sleep all day.” I played drums because I loved them.' To The Big Beat: Conversations with Rock's Great Drummers (1984) ritish singer Ringo Starr performs during the concert. Everyone will go 'peace and love.' Even if you don’t say it loud, the thought’s great." 21 Starr solo llegó a tocar la pandereta en la primera canción y las maracas en la segunda. Wherever you are, go peace and love, that one day everyone will do it. And my dream, and on my birthday, we have the peace and love moment at noon. "I truly believe that, you know, the world would be a better place with peace and love. If you can't make it out, spread the peace and love on social media by sharing these Starr quotes, collected from PBS, Rolling Stone and : Fans can meet up with Starr and his wife, Barbara, at the Capitol Records Tower, according to his website. He was inducted into the Rock and Roll Hall of Fame last year.įor his birthday, Starr will host a live #PeaceAndLove event in Los Angeles at noon PDT. In a recent Parade interview, he opened up about how it feels to have a milestone birthday. On the road again I will see you in Seattle on Tuesday the 11th Portland Wednesday I am negative peace and love everybody thanks for waiting. Over the past few decades, Starr has won nine Grammy Awards, published three books and released more than 15 studio albums. Happy birthday, Ringo StarrThe former Beatle turns 79 on July 7. Heres to the Nights Lyrics by Ringo Starr from the customalbum6157732 album - including song video, artist biography, translations and more: Heres to. Starr became a Beatle in 1962, helping to pen songs like "With a Little Help From My Friends," "Octopus' Garden" and "The No No Song." The famous English rock band broke up eight years later, but their place in pop culture was set. The legendary artist was born July 7, 1940, and Thursday he planned to celebrate by spreading peace and love, which in recent years has become his motto. Best 11 Quotes by Ringo Starr At the end of the day, I can end up just totally wacky, because Ive made mountains out of molehills. I used to write songs and they heard me sing songs on stage in London. Thursday is former Beatles drummer, solo musician and noted emoji fan Ringo Starr's 76 birthday. John Lennon and Ringo Starr liked my songs. Musician Ringo Starr, on stage at a SiriusXM's town hall event, performs on Jan. I created a RANDOM calculation in Tableau to get a value of 0 to 1. So, I decided I would try to randomize the position of that four leaf clover. Every time you came into the viz, you'd see the four-leaf clover would be in the same position as it was the last time you opened the viz.and the second game would be the same, and the third, etc. So you could, in theory, memorize where the four-leaf clover was located. This was pretty easy, but even though you could play thousands of unique games, the games were, again, played in the exact same order. This always bugged me so I decided to create thousands of variations. Again, the problem is that the game never changed.you play it once and you're done. The object was to find the single four-leaf clover. It contained 25,000 three-leaf clovers and 1 four-leaf clover. I created the original version of this one month into using Tableau (March of 2018). We didn't really push the issue and figured that people wouldn't likely play it enough times to memorize the order.įast forward to early 2022 when I started playing around with my Luck of the Irish viz. I quickly tried a few things, but never really dug in. However, that didn't work when published to Tableau Public. I tried grabbing the seconds of the time figuring that would be fairly random - DATEPART('second', NOW()). Klaus recommended that we use some sort of randomization to change the cards and the order in which they appear. In theory, players could have memorized that the matching object in the first two cards was the zebra and the matching object in the second two cards was the key and so on. The game is played the same way every aning, the first two cards are the same two cards no matter how many times you play the game. Klaus brought up one issue before we shared the viz with the public. I encourage you to check out the final Spot It vs Dobble viz (note: in Jul 2022, there was some issue with images on Tableau Public, so parts of this viz may look a little odd). The viz turned out great and it was a ton of fun to build. The game itself is a ton of fun and the mathematics behind it are simply mind-blowing. You turn over two cards and players race to find the one and only object that is on both cards. In December 2020, Klaus Schulte and I collaborated on a fun project where we recreated the Spot It (known as Dobble in Europe) card game in Tableau. While music was the main focus, fashion, art and politics also got involved, with Tony Blair and New Labour aligning themselves with the movement.ĭuring the late 1990s, many Britpop acts began to falter commercially or break up, or otherwise moved towards new genres or styles. A chart battle between Blur and Oasis (dubbed "The Battle of Britpop") brought the movement to the forefront of the British press in 1995. The timespan of Britpop is generally considered to be 1993–1997, and its peak years to be 1995–1996. The most successful bands linked with Britpop were Oasis, Blur, Suede and Pulp, known as the movement's "big four", although Suede and Pulp distanced themselves from the term. Although the term was viewed as a marketing tool, and more of a cultural moment than a musical style or genre, its associated bands typically drew from the British pop music of the 1960s, glam rock and punk rock of the 1970s and indie pop of the 1980s. The movement brought British alternative rock into the mainstream and formed the backbone of a larger British popular cultural movement, Cool Britannia, which evoked the Swinging Sixties and the British guitar pop of that decade.īritpop was a media-driven focus on bands which emerged from the independent music scene of the early 1990s. It produced brighter, catchier alternative rock, partly in reaction to the popularity of the darker lyrical themes of the US-led grunge music and to the UK's own shoegaze music scene. Not to be confused with Bitpop or British pop music.īritpop was a mid-1990s British-based music culture movement that emphasised Britishness. ROSE-MARIE HUGUENIN PRIZE Awarded to all piano laureates (CHF 10,000.-) Sergey Belyavsky (28 years old, Russia) Kevin Chen (17 years old, Canada) Kaoruko Igarashi (28 years old, Japan) Zijian Wei (24 years old, China).STUDENTS’ PRIZE Awarded by a group of students from the Faculty of Music and the Department of Musicology of the University of Geneva (CHF 1000.-) Sergey Belyavsky (28 years old, Russia).YOUNG AUDIENCE PRIZE Awarded by students in Geneva (CHF 1000.-) Kevin Chen (17 years old, Canada).AUDIENCE PRIZE Awarded by spectators at the Final Rounds (CHF 1500.-) Sergey Belyavsky (28 years old, Russia).THIRD PRIZE EX AEQUO (CHF 8,000.-) Kaoruko Igarashi (28 years old, Japan) & Zijian Wei (24 years old, China).SECOND PRIZE (CHF 12,000.-) Sergey Belyavsky (28 years old, Russia).FIRST PRIZE (CHF 20,000.-) Kevin Chen (17 years old, Canada).It’s a new feature of the competition, and one where Kevin excelled.Ĭheck out his full final round performance below - but first prize wasn’t Kevin’s only award throughout the competition. In addition, the semi-finalists were required to both present and defend a personal artistic project that is intended to be carried out during a two-year period that follows the prize win. Chen, along with Sergey Belyavsky (28 years old, Russia), Kaoruko Igarashi (28 years old, Japan), and Zijian Wei (24 years old, China) performed during the Final Round with the Orchestre de la Suisse Romande, conducted by Maržena Diakun.Īll of the pieces (except for a chamber music program in the semi-finals) had to be performed by memory. From nine semi-finalists, four finalists were chosen for the Final Round, which was held on November 3. In 2017, he snagged third place in the 17-and -under category at the Orchestre Symphonique de Montréal Competition.įrom an initial field of 40 pianists between the ages of 16 and 29, representing 14 different countries, Kevin was the only Canadian to advance to the semi-finals.First place in the e-Piano Junior Competition, and two additional prizes for best performance of a Schubert and a Russian work in 2019, the same year he was recognized as a laureate in the Astana Piano Passion Competition in Kazakhstan.First place in the Mozart International Piano Competition in Switzerland & another win at the Hilton Head International Piano Competition in 2020.The youngest-ever winner of the Franz Liszt International Piano Competition in 2021.Kevin has also composed many works for full orchestra, and at least one piano concerto. The seasoned third-grader had already performed with the Edmonton Symphony Orchestra, Calgary Philharmonic, Okanagan Symphony Orchestra, Vancouver Island Symphony, the Astana Opera Symphony Orchestra, and the Minnesota Orchestra. It was a year after he’d made his orchestral debut with the Abbotsford Youth Orchestra. Kevin Chen made it to CBC Music’s list of Top 30 Hot Canadian Classical Musicians under 30 by the age of eight. I've tested it with my setup and trying to replace SpeedFan seems a realistic possibility with how good it already is. Hello, and a HUGE thanks for working on this! I will also keep an eye on this thread to see how it goes.Ĭonfirmed compatibility list from members If you want to help me out a bit or give me feedback, I included some links/button in the left hamburger menu out of the way to send me an email If it works on your current setup, well you got your fan control situation sorted at least until you change your motherboard! It works great for my needs but I didn't test it on a hundred different motherboards. Please note that this is a small personal project. Saves your current configuration and reload it on startupīoard support is updated whenever the API gets an update! Multi-config support with quick-switch from tray iconĬustom name for each fan / curve / controlĪutomatic or manual matching between your controls and fan speeds So I decided to make my own lightweight application with the OpenHardwareMonitorLib API, and here is what I got so far. The existing UI is a HWMonitor clone that allows to set a manual fan speed to any fan, but no temperature/speed fan curve here. OpenHardwareMonitor is divided into two parts, an API to interact with your hardware ( CPU, RAM, Fans. However, thanks to the code base being open sourced, there are a couple of active branches, LibreHardwareMonitor being the best one I found, supporting my MSI Z390 Edge AC board and being updated regularly. The first link is an original project which could be downloaded here , but just like SpeedFan, the project is not updated anymore. I searched around for an alternative software with this particular feature and only found a paid option (Angus Monitor). (My BIOS only supports CPU temperature as a temperature source for the PWM fans). I used it to bind my case fans speed to the hottest component of my PC, my GPU. The main feature I used was the custom fan curves with custom temperature sources. I built a new custom UI on top of OpenHardwareMonitor with additional features, mainly linear fan curves with custom temperature sources.Īs you guys may know, SpeedFan is sadly not updated anymore, so newer boards are not detected properly. The most powerful and intuitive harmony remote works with Alexaįor voice control. Imported from USA (Sizes & Specifications are based on the USA Market). Works with over 270, 000 devices: controls your TV, satellite or cable box, Apple TV, Roku, TiVo, Blu-ray player, game consoles, plus connected lights, locks, thermostats, sensors and more.One-touch activities: touch An activity like "watch a movie" To automatically power on and switch devices to the right settings.Full color touch screen: simply swipe and tap to control channels, movies, volume, 50 favorite channels and smart home devices like Philips hue lights.Remove the back battery cover and insert the two AA batteries into the remote. It can control up to 15 devices, including both. Given that most devices dont have separate on and an. The most powerful and intuitive Harmony remote: all-in-one control of up to 15 Home entertainment and connected home devices. Harmony 665 remote enables one-touch Activity based control of your home. The SofaBaton U1 Universal Remote Control is a well-designed universal remote that offers a lot more features than you might expect for 50. Press the TV button, and the remote will switch your TV to the cable input, and turn off your amplifier. This may provideĪ tool to study the grand canonical EoS of dense matter via deep learning. This is the stage on which planets, stars, galaxies - all matter in the universe - act their gravitational. Einstein used time as a fourth dimension to describe a coordinate system called space-time. Many people think the fourth dimension is simply time, and for some astronomical equations, it is. The reason is that the Lorentz signature gives us negative squared distances, something that we never have on ordinary curved surfaces. Space is indeed curved - in four dimensions. The very heart of the theory, the curved spacetime, is however fundamentally difcult to display us-ing curved surfaces. Using field theoretical methods can be used as a direct input. a star affects the space around it can easily be displayed by a curved surface. We rewrite the TOVĮquation as an alternative version so that the grand canonical EoS computed by Potential $\mu$, known as Tolman's law and Klein's law. Buy Curved Space: The Adventures of Stella Star by Cozzi, Luigi, Berdinski, Thomas P., Brents, Scott, Dean, Richard, Munro, Caroline (ISBN: 9781453725320). and variable stars, the light curve is a simple but valuable tool to a scientist. Pressure $p$ only through enhancing the temperature $T$ and the chemical Light curves are graphs that show the brightness of an object over a. Spacetime, otherwise it is not consistent with local thermodynamic relationsĪnd energy-momentum conservation of the fluid. Of dense matter, $p(T,\mu)$, should be the same as that computed in flat Of general relativity and relativistic fluid dynamics, the grand canonical EoS That to study the hydrostatic equilibrium of dense matter within the framework Maximum mass limit of neutron stars [Phys. That the curved spacetime effect or specifically gravitational time dilationĮffect on the EoS of dense matter leads to a significant increase of the The Tolman-Oppenheimer-Volkoff (TOV) equation. However, in general relativity a central role is played by. In flat spacetime is used to predict the structure of neutron stars by solving Euclidean space or Minkowski space, a general curved spacetime has no symmetries. The equation of state (EoS) of dense matter computed reduces the Einstein equations to a set of ordinary differential equations at the surface of the star. Download a PDF of the paper titled Do we need dense matter equation of state in curved spacetime for neutron stars?, by Jianing Li and 3 other authors Download PDF Abstract: Neutron stars are regarded as natural laboratories for the study of dense The displacement of lines in the spectrum of a distant star, on the assumption that space-time is of constant curvature (the de Sitter world ) has been. In particular, the cost of optic nerve photography is substantially lower than the newer techniques. Īlthough recent advances in computerized analysis of the ONH have assisted the practitioner, these methods have not completely supplanted photographic analysis of the optic nerve. The resulting photographs can then be viewed with an inexpensive stereoscope viewer or similar device. A common technique is to take two photographs of the same nerve shifting the angle of the camera slightly between exposures. Stereo disc photography can be achieved utilizing several methods. Stereo disc photography has greater utility in determining size and shape of the neuroretinal rim and the depth of the cup than two-dimensional photography. Stereo disc photography and red-free nerve fiber layer photography are additional techniques to enhance the evaluation of the disc photograph. In addition, photographs allow for analysis of changes in the anatomy of the optic nerve over time. It is not uncommon for practitioners to identify feature such as disc hemorrhages on subsequent evaluation of a photograph. Thus, photography allows the practitioner to evaluate fine details of the anatomy not easily seen on examination. Extended examination is difficult for patients and practitioners. Single images can be used to closely evaluate the structural relationships within the nerve. Photographic documentation of the optic nerve serves multiple purposes. The standard optic nerve photographic technique of 35mm film and now digital photography has been used extensively since the 1960’s. Fundus photography was developed in the 1920’s. The optic nerve appearance often provides evidence of the presence and progression of glaucoma.Ĭlinical Signs of Glaucomatous Optic Neuropathyįundus photography has been the primary method of documenting the optic nerve until the advent of computerized imaging techniques. However there appear to be a number of different pathophysiologic mechanisms by which ganglion cell loss may occur. Elevated intraocular pressure is the greatest risk factor for development of ganglion cell loss. The decrease in vision from glaucoma is related to the loss of retinal ganglion cells. The retinal ganglion cells coursing into the optic nerve are responsible for the appearance of the neuroretinal rim. Pallor of the neuroretinal rim indicates previous insufficiency of the vascular supply of the optic nerve which is often unrelated to glaucoma. As the rim thins from ganglion cell loss, the cup becomes larger and often deeper exposing the lamina with increased pallor of the cup. The pallor of glaucomatous optic nerves relates to the increased visibility of the lamina cribosa as compared to the neuroretinal rim (containing the ganglion cells). The term pallor is likely to be misinterpreted to mean generalized pallor of the optic nerve. Optic Nerve in the Detection of GlaucomaĬhanges in the optic nerve in glaucoma are classically considered to be cupping and pallor of the disc. There are significant variations in optic nerve structural parameters in homogenous populations as well as with refractive error and race. The optic nerve size changes in early life and is likely stable after age 10. The optic nerve (optic disc, optic disk, optic nerve head ) area is approximately 2.1-2.8 mm 2 in whites who are not highly myopic depending on the measurement method utilized. This article will discuss information on evaluation of the intra-bulbar structure of the optic nerve as it relates to glaucoma, with particular emphasis on three imaging devices, confocal scanning laser ophthalmoscopy, optical coherence tomography, and scanning laser polarimetry. Recently, techniques utilizing sophisticated laser scanning with digital image processing have been used to assist clinical evaluation of the optic nerve and the retinal nerve fiber layer (RNFL). Direct observation with notation progressed to accurate photographic techniques. Although there have been variations in the definition of glaucoma over time, increased attention to the structure and appearance of the optic nerve has been a hallmark in understanding glaucoma. Since the mid-19th century, it has been recognized that changes in the optic nerve appearance correlate with vision and visual field loss in glaucoma. 2.7.1 General Concepts of OCT Analysis for Glaucoma.2.5 Confocal Scanning Laser Ophthalmoscopy.2.4 Computed Analysis of the Optic Nerve Head and Retinal Nerve Fiber Layer.2.3.2 Disadvantages of Optic Disc Photography.2.3.1 Advantages of Optic Disc Photography.2.1 Optic Nerve in the Detection of Glaucoma. Typical applications of DLS are particle size analysis, screening of buffer conditions during formulation, stability testing, and aggregation analysis. On the one hand many application for example in the protein research or analysis of liposomes and micelles cannot be performed by means of other. It can thereby be applied to everything from antibody, peptides and proteins, to nanoparticles and viruses. The dynamic light scattering (DLS) is a technique to measure the particle size distribution of nano- and submircosized particles, which is used primarily in pharmaceutical and biochemical industry. Applicability:ĭynamic light scattering (DLS) is applicable to particles and macromolecules from ~ 1 nm to ~1 µm. The measured Brownian motion is related to the diffusion coefficient and from that the hydrodynamic size (Stokes radius) can be obtained. Principle:ĭynamic light scattering (DLS), also referred to as quasi-elastic light scattering (QELS) or photon correlation spectroscopy (PCS), is a spectroscopic technique that measures the Brownian motion of particles/macromolecules in solution. We use DLS instrumentation from Wyatt Technology and Malvern. Dynamic Light Scattering Particle size measurement using multiangle dynamic light scattering The dynamic light scattering (DLS) is a technique to measure the particle size distribution of nano- and submircosized particles, which is used primarily in pharmaceutical and biochemical industry. Our instrumentation is temperature controlled which is handy for stability investigations. We have the traditional DLS cuvette format, but also a DLS plate reader for high-throughput analysis and screenings, that utilizes low sample volumes. Dynamic Light Scattering (DLS), sometimes referred to as Photon Correlation Spectroscopy or Quasi-Elastic Light Scattering, is a technique classically used for measuring the size of particles typically in the sub-micron region, dispersed in a liquid. A typical use of dynamic light scattering (DLS) at SOLVE is particle size analysis and screening of protein solutions for aggregates. |
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