Podcasts about triaxial

At a time when many fiber arts stores are closing, Sara C. Bixler is bucking the trend. With degrees in both fine art and education, she had developed a studio practice as well as a teaching repertoire at the Pennsylvania weaving school where her father, Tom Knisely, had taught for decades. When that store closed, she decided to take the risk of opening a brand-new fiber arts center known as Red Stone Glen. It was an audacious project: the school and accompanying store occupy a rural campus in southeastern Pennsylvania, with space for several classes and even on-site lodging for students. Beginning a few years ago, the family took another step into the fiber arts when her husband, Dustin, acquired Bluster Bay Woodworking from its founders and began producing shuttles and other weaving tools “in the Glen,” too. She had support in her project from former students and from Tom, who was delighted to have a teaching home base again. Sara also loves opening her students' eyes to other weaving traditions, whether exploring weaving destinations overseas or preserving the legacy of American textile history in the National Museum of the American Coverlet, where she serves on the board of directors. Links Red Stone Glen (https://redstoneglen.com/) Triaxial weaving: Hex Weave & Mad Weave (https://red-stone-glen-fiber-arts-center.myshopify.com/products/hex-weave-mad-weave-an-introduction-to-triaxial-weaving?_pos=1&_sid=01e5449c8&_ss=r) by Elizabeth Harris and Charlene St. John National Museum of the American Coverlet (https://www.coverletmuseum.org/) Sara's videos on Boutenné (https://learn.longthreadmedia.com/courses/boutenn-with-sarah-bixler) and other subjects are available from Long Thread Media. (https://learn.longthreadmedia.com/collections?q=bixler) Sara leads tours to Japan (https://opulentquiltjourneys.com/all-craft-journeys/weaving-dyeing-holidays/item/discovering-japan-and-its-textiles?category_id=61) and Switzerland (https://opulentquiltjourneys.com/all-craft-journeys/weaving-dyeing-holidays/item/switzerlands-textile-heritage-and-christmas-markets?category_id=61) with Opulent Quilt Journeys. Bluster Bay Woodworks (https://blusterbaywoodworks.com/) This episode is brought to you by: Treenway Silks is where weavers, spinners, knitters and stitchers find the silk they love. Select from the largest variety of silk spinning fibers, silk yarn, and silk threads & ribbons at TreenwaySilks.com (https://www.treenwaysilks.com/). You'll discover a rainbow of colors, thoughtfully hand-dyed in Colorado. Love natural? Treenway's array of wild silks provide choices beyond white. If you love silk, you'll love Treenway Silks, where superior quality and customer service are guaranteed. The Michigan Fiber Festival—Michigan's largest sheep and wool festival—is a vibrant world of fiber arts. Discover five days of classes with nationally recognized teachers in spinning, weaving, lacemaking, dyeing, felting, and rug hooking. Enjoy three days of shopping. Delight in shearing and fiber arts demonstrations. Enjoy a truly immersive experience. Join us in August at the picturesque Allegan County Fairgrounds (you can even camp on site!) Find more details at michiganfiberfestival.info. (The Michigan Fiber Festival – Michigan's largest sheep and wool festival – is a vibrant world of fiber arts. Discover five days of classes with nationally recognized teachers in spinning, weaving, lacemaking, dyeing, felting, and rug hooking. Enjoy three days of shopping. Delight in shearing and fiber arts demonstrations. Enjoy a truly immersive experience. Join us in August at the picturesque Allegan County Fairgrounds (you can even camp on site!) Find more details at michiganfiberfestival.info.)

A Rádio UFOP em parceria com a LAGEM (@lagem.ufop), a Liga Acadêmica de Geotecnia da Escola de Minas, lança o PODCAST - HORA DA GEOTECNIA. O projeto de extensão tem como objetivo principal, difundir conhecimento científico acerca de assuntos relacionados à Geotecnia para toda a comunidade. Em cada episódio temas que geram debates ou dúvidas, serão esclarecidos e informados à sociedade. Aperte o play! Ouça e compartilhe. Ficha Técnica: Apresentação: Giovana Silva Coordenação do projeto e Revisão Técnica: Felipe Loch Edição de Texto: Elis Cristina Edição de Áudio: Danilo Nonato Produção: Liga Acadêmica de Geotecnia da Escola de Minas (LAGEM) em parceria com a Rádio UFOP. Realização: Universidade Federal de Ouro Preto (UFOP) e Fundação de Educação Artes e Cultura (FUNDAC) SIGA A RÁDIO UFOP EM NOSSAS REDES SOCIAIS E SINTONIZE 103,5

Jamie, August, and Matt invite the Triaxial Mead team into the studio for a tasting of the array meads available from Triaxial Meads.  Barry, Mike, Paul joined forces to create this brand. We get the story of these meadsmiths and the amazing line of expressions they present. Some great things on tap and new canned projects coming this year. https://triaxialmeads.com/https://linktr.ee/ManCaveHappyHourwww.ManCaveHappyHour.comJamie Flanagan @DJJamieDetroitMatt Fox @fox_beazlefoxMerch www.WearingFunny.com

Accuracy and precision of triaxial orbit models II: Viewing angles, shape and orbital structure by Stefano de Nicola et al. on Tuesday 22 November We explore the potential of our novel triaxial modeling machinery in recovering the viewing angles, the shape and the orbit distribution of galaxies by using a high-resolution $N$-body merger simulation. Our modelling technique includes several recent advancements. (i) Our new triaxial deprojection algorithm SHAPE3D is able to significantly shrink the range of possible orientations of a triaxial galaxy and therefore to constrain its shape relying only on photometric information. It also allows to probe degeneracies, i.e. to recover different deprojections at the same assumed orientation. With this method we can constrain the intrinsic shape of the $N$-body simulation, i.e. the axis ratios $p=b/a$ and $q=c/a$, with $Delta p$ and $Delta q$ $lesssim$ 0.1 using only photometric information. The typical accuracy of the viewing angles reconstruction is 15-20$^circ$. (ii) Our new triaxial Schwarzschild code SMART exploits the full kinematic information contained in the entire non-parametric line-of-sight velocity distributions (LOSVDs) along with a 5D orbital sampling in phase space. (iii) We use a new generalised information criterion AIC$_p$ to optimise the smoothing and to select the best-fit model, avoiding potential biases in purely $chi^2$-based approaches. With our deprojected densities, we recover the correct orbital structure and anisotropy parameter $beta$ with $Delta beta$ $lesssim$ 0.1. These results are valid regardless of the tested orientation of the simulation and suggest that even despite the known intrinsic photometric and kinematic degeneracies the above described advanced methods make it possible to recover the shape and the orbital structure of triaxial bodies with unprecedented accuracy. arXiv: http://arxiv.org/abs/http://arxiv.org/abs/2210.01893v2

Accuracy and precision of triaxial orbit models II: Viewing angles, shape and orbital structure by Stefano de Nicola et al. on Monday 21 November We explore the potential of our novel triaxial modeling machinery in recovering the viewing angles, the shape and the orbit distribution of galaxies by using a high-resolution $N$-body merger simulation. Our modelling technique includes several recent advancements. (i) Our new triaxial deprojection algorithm SHAPE3D is able to significantly shrink the range of possible orientations of a triaxial galaxy and therefore to constrain its shape relying only on photometric information. It also allows to probe degeneracies, i.e. to recover different deprojections at the same assumed orientation. With this method we can constrain the intrinsic shape of the $N$-body simulation, i.e. the axis ratios $p=b/a$ and $q=c/a$, with $Delta p$ and $Delta q$ $lesssim$ 0.1 using only photometric information. The typical accuracy of the viewing angles reconstruction is 15-20$^circ$. (ii) Our new triaxial Schwarzschild code SMART exploits the full kinematic information contained in the entire non-parametric line-of-sight velocity distributions (LOSVDs) along with a 5D orbital sampling in phase space. (iii) We use a new generalised information criterion AIC$_p$ to optimise the smoothing and to select the best-fit model, avoiding potential biases in purely $chi^2$-based approaches. With our deprojected densities, we recover the correct orbital structure and anisotropy parameter $beta$ with $Delta beta$ $lesssim$ 0.1. These results are valid regardless of the tested orientation of the simulation and suggest that even despite the known intrinsic photometric and kinematic degeneracies the above described advanced methods make it possible to recover the shape and the orbital structure of triaxial bodies with unprecedented accuracy. arXiv: http://arxiv.org/abs/http://arxiv.org/abs/2210.01893v2

Worldwide Golf Shops INSIDER PODCAST #332! In this installment, we chat with the Senior Director, Brand & Product Management - Callaway Golf, Mr. Dave Neville! Dave talks Callaway's new EPIC Speed! Please Enjoy this INSIDER Podcast. Callaway Epic Speed Driver What happens when the undisputed ball speed leader goes out and creates a NEW formula for speed that doesn’t even seem possible? The answer is.... you get the new Epic Speed, our fastest driver ever. Epic Speed is built on a simple equation that’s going to make a profound impact on the category. A.I. + Jailbreak + our new Speed Frame = more distance for every player. The future of driver technology and performance is here, and it’s about to change the industry forever. Extraordinary Ball Speed From NEW Jailbreak A.I. Speed Frame: Epic ball speeds start with our new A.I. Jailbreak Speed Frame. Previous Jailbreak designs stiffened the body in the vertical direction. By applying Artificial Intelligence, the new design improves stability in the horizontal and torsional direction as well. The result is exceptional ball speeds all across the face.Fast Ball Speed From A.I. Designed Flash Face SS21 : Our advanced A.I.-designed Flash Face promotes fast ball speeds across a more expansive area. Each face and each head geometry are uniquely optimized in Epic, and the super strength titanium promotes optimal speed, forgiveness, and spin robustness. This all results in a greater emphasis on center and off-center ball speeds.Our Fastest Driver Head From A Cyclone Aero Shape: This advanced aerodynamic head construction promotes lower drag for higher head speed and ball speed. The taller ribbon and flatter crown are engineered for a new shape that can help golfers generate more speed from their swing.Increased Forgiveness From Advanced Composite Design: Our proprietary Triaxial carbon covers a larger portion of the crown, leading to weight savings of over 18 grams vs. a titanium crown. Callaway engineers have redistributed that saved weight to enhance forgiveness versus previous Mavrik designs. An additional Triaxial carbon toe patch adds draw bias while saving weight to promote a powerful shot shape. Shop EPIC Speed Drivers, Fairways, Hybrids and Irons at https://www.worldwidegolfshops.com/

On the Beer Tour Guy Podcast Episode 41, Steve from Motor City Brew Tours talks with Paul from Triaxial Meadsmiths in Orion Township Michigan. Listen in to learn about the Detroit Michigan craft beverage industry. --- This episode is sponsored by · Anchor: The easiest way to make a podcast. https://anchor.fm/app

Callaway GBB Epic Fairway Review shows how the lighter TriAxial carbon crown adds to the performance of this adjustable fairway.

Callaway Big Bertha Fusion Driver Review shows how the Triaxial carbon crown and shorter shaft increase forgiveness.

Examining the characteristics of plane strain, and the methods used to measure plane strain fracture toughness.

Transcript -- Examining the characteristics of plane strain, and the methods used to measure plane strain fracture toughness.

Examining the characteristics of plane strain, and the methods used to measure plane strain fracture toughness.

Transcript -- Examining the characteristics of plane strain, and the methods used to measure plane strain fracture toughness.