Search
46 results for “skaffman”
-
For the last 3 years, every time I've turned on my #bluetooth headphones at my desk, I've had to re-pair them with my #linux laptop. It's annoying.
Turns out all I had to do was click the "trust" tick icon in #blueman, and it does it automatically.
What a n00b.
But still.... since when does a "tick" icon mean "trust"?
-
Anything know what's going on with #java #vavr? I love working with it, but there have been no new releases for at least 2 years, it seems stuck in 1.0-alpha.
As much as it makes developing with Java so much more enjoyable, I can't justify using it if it's a dead project.
Maybe the #resilence4j folks know?
-
How can staff+ security engineers force-multiply their impact? https://www.csoonline.com/article/4103311/how-can-staff-security-engineers-force-multiply-their-impact.html #StaffManagement #ITLeadership #ITManagement
-
How security leaders can effectively manage Gen Z staff
https://www.csoonline.com/article/3689013/how-security-leaders-can-effectively-manage-gen-z-staff.html#tk.rss_all
#StaffManagement #CSOandCISO -
The CISO’s greatest risk? Department leaders quitting https://www.csoonline.com/article/4094734/the-cisos-greatest-risk-department-leaders-quitting.html #SecurityPractices #StaffManagement #ITLeadership #ITManagement #CSOandCISO #Security
-
83% of CISOs say staff shortage is major issue for defense https://www.csoonline.com/article/4043993/83-of-cisos-say-staff-shortage-is-major-issue-for-defense.html #SecurityPractices #StaffManagement #ITSkills
-
The CISO code of conduct: Ditch the ego, lead for real https://www.csoonline.com/article/4022903/the-ciso-code-of-conduct-ditch-the-ego-lead-for-real.html #BusinessITAlignment #StaffManagement #ITLeadership #CSOandCISO
-
53% of cyber department leaders eyeing the exit https://www.csoonline.com/article/3998246/53-of-cyber-department-leaders-eyeing-the-exit.html #SecurityPractices #StaffManagement #ITLeadership #Careers #Hiring #ITJobs
-
Fractal Fingers
As bizarre as the branching fractal fingers of the Saffman-Taylor instability look, they’re quite a common phenomenon. In his video, Steve Mould demonstrates how to make them by sandwiching a viscous liquid like school glue between two acrylic sheets and then pulling them apart. The more formal lab-version of this is the Hele-Shaw cell, which he also demonstrates. But you may have come across the effect when pealing up a screen protector or in dealing with a cracked phone screen. In all of these cases, a less viscous fluid — specifically air — is forcing its way into a more viscous fluid, something that it cannot manage without the fluid interface fracturing. (Video and image credit: S. Mould)
#flowVisualization #fluidDynamics #fractals #HeleShawCell #instability #physics #SaffmanTaylorInstability #science #viscousFingering
-
Fractal Fingers
As bizarre as the branching fractal fingers of the Saffman-Taylor instability look, they’re quite a common phenomenon. In his video, Steve Mould demonstrates how to make them by sandwiching a viscous liquid like school glue between two acrylic sheets and then pulling them apart. The more formal lab-version of this is the Hele-Shaw cell, which he also demonstrates. But you may have come across the effect when pealing up a screen protector or in dealing with a cracked phone screen. In all of these cases, a less viscous fluid — specifically air — is forcing its way into a more viscous fluid, something that it cannot manage without the fluid interface fracturing. (Video and image credit: S. Mould)
#flowVisualization #fluidDynamics #fractals #HeleShawCell #instability #physics #SaffmanTaylorInstability #science #viscousFingering
-
Fractal Fingers
As bizarre as the branching fractal fingers of the Saffman-Taylor instability look, they’re quite a common phenomenon. In his video, Steve Mould demonstrates how to make them by sandwiching a viscous liquid like school glue between two acrylic sheets and then pulling them apart. The more formal lab-version of this is the Hele-Shaw cell, which he also demonstrates. But you may have come across the effect when pealing up a screen protector or in dealing with a cracked phone screen. In all of these cases, a less viscous fluid — specifically air — is forcing its way into a more viscous fluid, something that it cannot manage without the fluid interface fracturing. (Video and image credit: S. Mould)
#flowVisualization #fluidDynamics #fractals #HeleShawCell #instability #physics #SaffmanTaylorInstability #science #viscousFingering
-
Fractal Fingers
As bizarre as the branching fractal fingers of the Saffman-Taylor instability look, they’re quite a common phenomenon. In his video, Steve Mould demonstrates how to make them by sandwiching a viscous liquid like school glue between two acrylic sheets and then pulling them apart. The more formal lab-version of this is the Hele-Shaw cell, which he also demonstrates. But you may have come across the effect when pealing up a screen protector or in dealing with a cracked phone screen. In all of these cases, a less viscous fluid — specifically air — is forcing its way into a more viscous fluid, something that it cannot manage without the fluid interface fracturing. (Video and image credit: S. Mould)
#flowVisualization #fluidDynamics #fractals #HeleShawCell #instability #physics #SaffmanTaylorInstability #science #viscousFingering
-
Fractal Fingers
As bizarre as the branching fractal fingers of the Saffman-Taylor instability look, they’re quite a common phenomenon. In his video, Steve Mould demonstrates how to make them by sandwiching a viscous liquid like school glue between two acrylic sheets and then pulling them apart. The more formal lab-version of this is the Hele-Shaw cell, which he also demonstrates. But you may have come across the effect when pealing up a screen protector or in dealing with a cracked phone screen. In all of these cases, a less viscous fluid — specifically air — is forcing its way into a more viscous fluid, something that it cannot manage without the fluid interface fracturing. (Video and image credit: S. Mould)
#flowVisualization #fluidDynamics #fractals #HeleShawCell #instability #physics #SaffmanTaylorInstability #science #viscousFingering
-
AI still far more expensive than humans in most jobs: MIT study - Countering several recent reports that suggest AI will take away millions of jobs, res... - https://www.computerworld.com/article/3712460/ai-still-far-more-expensive-than-humans-in-most-jobs-mit-study.html#tk.rss_all #artificialintelligence #staffmanagement #generativeai
-
UK workers support AI but want greater organizational transparency - New research from Asana shows that although UK workers are open to the opportunities t... - https://www.computerworld.com/article/3709052/uk-workers-support-ai-but-want-greater-organizational-transparency.html#tk.rss_all #artificialintelligence #staffmanagement #itstrategy
-
How layoffs can affect diversity in tech—and what to do about it - After going on a hiring spree during the pandemic, tech companies are now laying off s... - https://www.computerworld.com/article/3683913/how-layoffs-can-affect-diversity-in-techand-what-to-do-about-it.html#tk.rss_all #diversityandinclusion #staffmanagement #hiring
-
Offboarding processes pose security risks as job turnover increases: Report - Organizations across multiple industries are struggling to mitigate potential risks—in... - https://www.computerworld.com/article/3680368/offboarding-processes-pose-security-risks-as-job-turnover-increases-report.html#tk.rss_all #changemanagement #staffmanagement #security
-
Flow Behind Viscous Fingers
Nature is full of branching patterns: trees, lighting, rivers, and more. In fluid dynamics, our prototypical branching pattern is the Saffman-Taylor instability, created when a less viscous fluid is injected into a more viscous one in an confined space. Most attention in this problem has gone to the branching interface where the two fluids meet, but recently, a team has examined the flow away from the fingers by alternately injecting dyed and undyed fluid to visualize what goes on. That’s what we see here. Notice how the central dye rings, far from the branching fingers, still appear circular. Yet, even a few centimeters away from the fingers, the dye is starting to show ripples that correspond to the fingers. That’s an indication that the pressure gradient generated at the tips of the fingers is pretty far-reaching! (Image and research credit: S. Gowen et al.)
#flowVisualization #fluidDynamics #HeleShawCell #physics #SaffmanTaylorInstability #science #surfaceTension
-
Working in critical infrastructure? Boost your effectiveness with these cybersecurity certifications https://www.csoonline.com/article/563137/top-it-security-certifications-for-critical-infrastructure-by-sector.html #DataandInformationSecurity #TechnologyIndustry #StaffManagement #Certifications #ITSkills
-
A crisis of spending and cloud-based generative AI - The rush to generative AI is driving unexpected spending. It’s no longer considered op... - https://www.infoworld.com/article/3707868/a-crisis-of-spending-and-cloud-based-generative-ai.html#tk.rss_all #staffmanagement #cloudcomputing #generativeai
-
A crisis of spending and cloud-based GenAI - The rush to generative AI is driving unexpected spending. It’s no longer considered op... - https://www.infoworld.com/article/3707868/a-crisis-of-spending-and-cloud-based-genai.html#tk.rss_all #staffmanagement #cloudcomputing #generativeai
-
Games Workshop bans staff from using AI, management not excited about the tech
#HackerNews #GamesWorkshop #AI #Ban #StaffManagement #TechNews #Warhammer
-
83% of CISOs say staff shortage is major issue for defense – Source: www.csoonline.com https://ciso2ciso.com/83-of-cisos-say-staff-shortage-is-major-issue-for-defense-source-www-csoonline-com/ #rssfeedpostgeneratorecho #CyberSecurityNews #SecurityPractices #StaffManagement #CSOonline #CSOOnline #itskills
-
The CISO code of conduct: Ditch the ego, lead for real – Source: www.csoonline.com https://ciso2ciso.com/the-ciso-code-of-conduct-ditch-the-ego-lead-for-real-source-www-csoonline-com/ #rssfeedpostgeneratorecho #BusinessITAlignment #CyberSecurityNews #StaffManagement #ITLeadership #CSOandCISO #CSOonline #CSOOnline
-
Pressure is mounting to cut jobs in favor of AI. Here’s why you shouldn’t. – Source: www.csoonline.com https://ciso2ciso.com/pressure-is-mounting-to-cut-jobs-in-favor-of-ai-heres-why-you-shouldnt-source-www-csoonline-com/ #rssfeedpostgeneratorecho #SecurityOperationsCenter #ArtificialIntelligence #TechnologyIndustry #CyberSecurityNews #StaffManagement #CSOonline #CSOOnline #ITJobs
-
CrowdStrike is cutting jobs in favor of AI. Here’s why you shouldn’t. https://www.csoonline.com/article/4012831/crowdstrike-is-cutting-jobs-in-favor-of-ai-heres-why-you-shouldnt.html #SecurityOperationsCenter #ArtificialIntelligence #TechnologyIndustry #StaffManagement #ITJobs
-
Flow Behind Viscous Fingers
Nature is full of branching patterns: trees, lighting, rivers, and more. In fluid dynamics, our prototypical branching pattern is the Saffman-Taylor instability, created when a less viscous fluid is injected into a more viscous one in an confined space. Most attention in this problem has gone to the branching interface where the two fluids meet, but recently, a team has examined the flow away from the fingers by alternately injecting dyed and undyed fluid to visualize what goes on. That’s what we see here. Notice how the central dye rings, far from the branching fingers, still appear circular. Yet, even a few centimeters away from the fingers, the dye is starting to show ripples that correspond to the fingers. That’s an indication that the pressure gradient generated at the tips of the fingers is pretty far-reaching! (Image and research credit: S. Gowen et al.)
#flowVisualization #fluidDynamics #HeleShawCell #physics #SaffmanTaylorInstability #science #surfaceTension
-
Flow Behind Viscous Fingers
Nature is full of branching patterns: trees, lighting, rivers, and more. In fluid dynamics, our prototypical branching pattern is the Saffman-Taylor instability, created when a less viscous fluid is injected into a more viscous one in an confined space. Most attention in this problem has gone to the branching interface where the two fluids meet, but recently, a team has examined the flow away from the fingers by alternately injecting dyed and undyed fluid to visualize what goes on. That’s what we see here. Notice how the central dye rings, far from the branching fingers, still appear circular. Yet, even a few centimeters away from the fingers, the dye is starting to show ripples that correspond to the fingers. That’s an indication that the pressure gradient generated at the tips of the fingers is pretty far-reaching! (Image and research credit: S. Gowen et al.)
#flowVisualization #fluidDynamics #HeleShawCell #physics #SaffmanTaylorInstability #science #surfaceTension
-
Flow Behind Viscous Fingers
Nature is full of branching patterns: trees, lighting, rivers, and more. In fluid dynamics, our prototypical branching pattern is the Saffman-Taylor instability, created when a less viscous fluid is injected into a more viscous one in an confined space. Most attention in this problem has gone to the branching interface where the two fluids meet, but recently, a team has examined the flow away from the fingers by alternately injecting dyed and undyed fluid to visualize what goes on. That’s what we see here. Notice how the central dye rings, far from the branching fingers, still appear circular. Yet, even a few centimeters away from the fingers, the dye is starting to show ripples that correspond to the fingers. That’s an indication that the pressure gradient generated at the tips of the fingers is pretty far-reaching! (Image and research credit: S. Gowen et al.)
#flowVisualization #fluidDynamics #HeleShawCell #physics #SaffmanTaylorInstability #science #surfaceTension
-
Flow Behind Viscous Fingers
Nature is full of branching patterns: trees, lighting, rivers, and more. In fluid dynamics, our prototypical branching pattern is the Saffman-Taylor instability, created when a less viscous fluid is injected into a more viscous one in an confined space. Most attention in this problem has gone to the branching interface where the two fluids meet, but recently, a team has examined the flow away from the fingers by alternately injecting dyed and undyed fluid to visualize what goes on. That’s what we see here. Notice how the central dye rings, far from the branching fingers, still appear circular. Yet, even a few centimeters away from the fingers, the dye is starting to show ripples that correspond to the fingers. That’s an indication that the pressure gradient generated at the tips of the fingers is pretty far-reaching! (Image and research credit: S. Gowen et al.)
#flowVisualization #fluidDynamics #HeleShawCell #physics #SaffmanTaylorInstability #science #surfaceTension