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Vladimir Stringfield
I found that application/x-director is an Adobe Shockwave Player video. So I thought that this is the problem. However, IE and Firefox play the video without Shockwave installed on my PC. I tried to install Shockwave but Chrome and Opera do not see the Shockwave plugin in their chrome://plugins or opera://plugins and still do not play the video.
If you look at the packages recommended by the opera-stable package, you'll find an entry for pepperflashplugin-nonfree. This package will install the PPAPI Flash Player plug-in included with Google Chrome which will work with Opera too (otherwise they wouldn't suggest it).
This is probably a well known issue. I would like to play some games and get some more gam avvies. But I am not able to. First I could just install this shockwave version and it mostly worked. But now I updated to windows 10, and it is not working anymore. Any tips/topics on this?
Microsoft called special attention to a cumulative update for Internet Explorer that fixes two critical vulnerabilities present in virtually every version of IE ever produced, including IE 9, 10 and IE on Windows RT, the operating system for mobile devices and tablets.
GFI Langard used to have a free version of a scanner and patcher software. last time I used it was version 9.x, and it worked ok for Microsoft objects. The NEAT thing it would do is inventory software on machines and then you could see exactly what type of non-operating stuff is in your home office, small business or home computers.
[view edit purge]In physics, a shock wave (also spelled shockwave), or shock, is a type of propagating disturbance. When a wave moves faster than the local speed of sound in a fluid it is a shock wave. Like an ordinary wave, a shock wave carries energy, and can propagate through a medium; however it is characterized by an abrupt, nearly discontinuous change in pressure, temperature and density of the medium.
Lunascape is a cross-platform web browser developed in Japan. Its key differentiator is that it enables users to switch between three rendering engines. Among its many nice features is that Lunascape can play Flash games, videos, and websites seamlessly. It works on all devices and operating systems, and provides broad flexibility in navigating the Internet.
You can disable Adobe Flash directly in browsers or uninstall from the operating system. It is possible to disable Flash in the next browsers: Mozilla Firefox, Google Chrome Chrome, Opera, Safari, Yandex Browser, Microsoft Edge and Internet Explorer.
For every solution listed below the same mms.cfg content is required, only the folder is different. The location of the folder depends on both your browser and operating system, and is given below for common combinations.
Ruffle is a Flash Player emulator written in Rust. Ruffle runs natively on all modern operatingsystems as a standalone application, and on all modern browsers through the use of WebAssembly.Leveraging the safety of the modern browser sandbox and the memory safety guarantees of Rust,we can confidently avoid all the security pitfalls that Flash had a reputation for.Ruffle puts Flash back on the web, where it belongs - including browsers on iOS and Android!
Hi, I'm Dr. Nicole Barry, a chiropractor at Energize Health. I'm excited to share with you some remarkable insights into the world of radial shockwave therapy and its incredible benefits. As a Calgary based chiropractor dedicated to helping my patients achieve optimal health and wellness, I have been successfully using shockwave therapy in my practice for over 5 years. I have witnessed firsthand the transformative effects of shockwave therapy and, in this blog, I will provide you with an overview of this cutting-edge treatment and back up its advantages with peer-reviewed research.
Radial shockwave therapy (RST), also known as extracorporeal shockwave therapy (ESWT) or simply "shockwave", is a non-invasive treatment modality that utilizes high-energy acoustic waves to treat a variety of musculoskeletal conditions. Think of an opera singer who can break glass with their voice, or a sonic boom when a military jet flies by: these are more common examples of the power of acoustic wave. With shockwave therapy, specific frequency acoustic waves are delivered to targeted areas of the body, where they stimulate the body's natural healing processes and can help provide relief from chronic pain and discomfort.
1. Shockwave Therapy for Pain Reduction:
One of the most notable benefits of shockwave is its ability to effectively reduce pain. A study published in the British Journal of Sports Medicine, [1] demonstrated that radial shockwave therapy significantly reduced pain levels in the short and long terms, in patients with chronic heel pain. By promoting the release of endorphins and reducing inflammation, shockwave helps patients experience long-lasting relief from pain.
2. Shockwave Therapy Speeds Up Healing:
Shockwave has been shown to enhance the body's natural healing mechanisms. A study in the International Journal of Surgery [2] found that radial shockwave therapy improved the healing of various soft tissue injuries by stimulating collagen production, increasing blood flow to the affected area and stimulating stem cell activities. This accelerated healing process is particularly beneficial for athletes and active individuals looking to get back to their regular routines as quickly as possible.
5. Shockwave Therapy is Efficient and Effective in Resolving Symptoms:
One of the standout advantages of radial shockwave therapy is that it often requires only a minimal number of sessions to achieve a resolution of symptoms. In most cases, patients experience significant relief after just 3-5 treatments. A review published in the Journal of Bone and Joint Surgery found that shockwave therapy can save patients thousands of dollars in comparison with alternative therapies or surgeries. This efficiency not only saves time and money but also ensures a quicker return to a pain-free and active lifestyle.
Mimicking the reflective iridescence of a butterfly's wing, investigators at the University of Pennsylvania School of Medicine and School of Engineering and Applied Sciences have developed a color-changing patch that could be worn on soldiers' helmets and uniforms to indicate the strength of exposure to blasts from explosives in the field. Future studies aim to calibrate the color change to the intensity of exposure to provide an immediate read on the potential harm to the brain and the subsequent need for medical intervention. The findings are described in the ahead-of-print online issue of NeuroImage. googletag.cmd.push(function() googletag.display('div-gpt-ad-1450190541376-1'); ); "We wanted to create a 'blast badge' that would be lightweight, durable, power-free, and perhaps most important, could be easily interpreted, even on the battlefield", says senior author Douglas H. Smith, MD, director of the Center for Brain Injury and Repair and professor of Neurosurgery at Penn. "Similar to how an opera singer can shatter glass crystal, we chose color-changing crystals that could be designed to break apart when exposed to a blast shockwave, causing a substantial color change."D. Kacy Cullen, PhD, assistant professor of Neurosurgery, and Shu Yang, PhD, associate professor of Materials Science and Engineering, were co-authors with Smith.Blast-induced traumatic brain injury is the "signature wound" of the current wars in Iraq and Afghanistan. However, with no objective information of relative blast exposure, soldiers with brain injury may not receive appropriate medical care and are at risk of being returned to the battlefield too soon."Diagnosis of mild traumatic brain injury [TBI] is challenging under most circumstances, as subtle or slowly progressive damage to brain tissue occurs in a manner undetectable by conventional imaging techniques," notes Cullen. There is also a debate as to whether mild TBI is confused with post-traumatic stress syndrome. "This emphasizes the need for an objective measure of blast exposure to ensure solders receive proper care," he says.Sculpted by LasersThe badges are comprised of nanoscale structures, in this case pores and columns, whose make-up preferentially reflects certain wavelengths. Lasers sculpt these tiny shapes into a plastic sheet.Yang's group pioneered this microfabrication of three-dimensional photonic structures using holographic lithography. "We came up the idea of using three-dimensional photonic crystals as a blast injury dosimeter because of their unique structure-dependent mechanical response and colorful display," she explains. Her lab made the materials and characterized the structures before and after the blast to understand the color-change mechanism."It looks like layers of Swiss cheese with columns in between," explains Smith. Although very stable in the presence of heat, cold or physical impact, the nanostructures are selectively altered by blast exposure. The shockwave causes the columns to collapse and the pores to grow larger, thereby changing the material's reflective properties and outward color. The material is designed so that the extent of the color change corresponds with blast intensity.The blast-sensitive material is added as a thin film on small round badges the size of fill-in-the-blank circles on a multiple-choice test that could be sewn onto a soldier's uniform.In addition to use as a blast sensor for brain injury, other applications include testing blast protection of structures, vehicles and equipment for military and civilian use. Provided byUniversity of Pennsylvania School of Medicine Citation: Color-changing 'blast badge' detects exposure to explosive shock waves (2010, November 29) retrieved 3 December 2023 from -11-color-changing-blast-badge-exposure-explosive.html This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only. Explore further
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