How is 3D printing technology used in Architecture and Medicine

D printing technology is used to manufacture prototypes, tools, and end-user parts directly from a CAD design. This printing technology offers unprecedented flexibility as it can create a part of any dimension out of any material. Some of the 3d printing materials used include metals, polymers, ceramics, composites, and many more. The 3D printing technology has complete control over material composition, surface texture, and micro-structure of the prototype. 3D printing technology also allows the user to construct prototypes using two different materials. >

Lets take a look at this amazing technology and how it has affected the field of architecture and medicine:

3D printing for Architecture

Architects know that there is nothing like a physical model of a building when it comes to displaying their work or design concept. Physical models also play an important role when it comes to explaining and convincing the customer while selling a project.

3D printers are affordable and high quality solutions for architects. Building a physical model requires great deal of expertise, precision, and time. 3D printing machines help designers focus on their building design, while the devices make 3D models of the project.

Many architects are not tech-savvy and are not used to operating complex devices. 3D printers do not require human intervention at any stage of the printing process. Architects just need to need to draw a CAD diagram of the project and instruct the 3D printer to build a 3D model. The 3D printer can print the model within a few hours, which can then be presented to the client.

3D printers are capable of producing of 3D models with accuracy and speed without compromising on the finer details of the architectural project. The price of desktop 3D printing machines is not that high and independent architects can also afford them.

3D printing for Medicine

The application of 3D printing technology can also be found in the production of medical devices. There are different 3D printing materials available that can be used to build real parts. For example, manufacturing hearing aids is a complex process because they are custom-fit devices and cannot be mass produced. 3D printing greatly helps in such matters where medical devices need to custom-fit a patient.

The future of the 3D printing technology is very bright. Market experts state that 3D printing technology will be affordable to the masses by the next decade. The prices of 3D printing devices are falling rapidly, and it is believed that the prices of 3D printers will drop by as much as 80{cbb27df4df5ba0584ce86fa73fd98fc58c980ab29e898591823fb60c25a6ec91} in the next 5-10 years. It will not be a surprise to see 3D printing devices in each household just like refrigerators, washing machines, and televisions.

Technology And Online Education

I guess it isn’t difficult now to relate technology with online education. Online education has grown from an infant to a teenager and then to an adult along with the growth of technology. Now is the time when even the traditional “brick and mortar” principle following schools are implementing technology in their teaching methods. Technology is the building brick of the online education system. It enhances the capabilities of an online institution in imparting education more effectively and efficiently.

Technology in online education is not just limited to means used for delivering lectures and checking assignments and papers, but is more far spread. The introduction of Medias like blogs, wikis and forums etc has added the cherry on the icing. Students now communicate with other students from all over the world. They showcase their talents on these blogs and forums. Their talents can be in the forum of articles, researches, journals, designs etc Blogs and forums allow all sort of material to be showcased. This way, students reach a much wider horizon. The chances of their talents being recognized and appreciated increases without approximate. They not only share their information but also learn a lot from other students views and additions. They learn to improve. They are faced with more job opportunities than ever.

Technology also improves social networking. The internet, the biggest venture of technology, is a place where people come from all over the world. One particular site may have visitors from Kuwait, Malaysia, Africa, Honolulu and where not! Using the social networking sites specially tailored for students, they can participate in online classes, debate with experts and other students. This way they increase their opportunities for jobs as well.

The next advent of technology, the mobile phone technology, virtual worlds and educational gaming technology have just come into scenario. However these three ventures are predicted to be the next boost to online education. How? This will be seen probably in a very less time. May be just after a couple of years from today, we will be talking about imparting education through mobile phones! Remember this is a technology world now. Nothing is impossible. One thing termed impossible today may be difficult after 10 years and very easily possible after the next 10 years! Technology doesnt remain the same for more than a decade. It advances faster than any other thing.

Thus distance education will also grow with the same speed as technology. They both are interrelated. So as online education is growing with every leap of technology, why dont you check out a topic that appeals you the most? This is the best time for it.

Podcasting Technology What Is It

Podcasting: Everyone is talking about it. But what exactly is it, and how does it work? Simply defined, podcasting is the dissemination of syndicated files, either audio or video in content, over the Web for use on handheld audio/video equipment and computers. The term itself is a combination of two words, “iPod” and “broadcasting.” The word refers to both the file that’s downloaded and the technology to transfer it. Keep in mind that an iPod is not necessary for accessing podcasts. A podcast is also known as an audio subscription service. Listeners can subscribe to and download as many podcasts as they want. As a new method of downloading and transferring information, podcasting is revolutionizing the way we communicate. Podcasts differ from streaming video and audio. Podcasts are usually a continuous series of programs, with many episodes featured in serial format. Podcast subscribers can listen to the content on MP3 players or computers whenever they want. Unlike streaming video, no Internet connection is necessary to review the content of a podcast. But, due to their nature as stored files, podcasts can never be experienced live, in real time – again, unlike streaming video.

Podcasters, or people who create podcasts, have Web sites where their content is available for downloading. Can any old Joe start his own podcast? For better or worse, the answer is yes. All a would-be podcaster has to do is put his files on a web server thats accessible to the public. The file should have an internet address (URI). Podcast files can be any kind of files, from a PDF to a text file. The files can contain audio or video content. The would-be podcaster begins to create a series of files, creating a feed or list of URIs, so the entries in the series can be easily found and downloaded. Each entry is usually accompanied by a date, a title and some kind of content overview. The podcaster links the file to an identifiable place on the web server. This place is usually permanent, and its called the feed URI.

The popularity of these informational feeds has grown astronomically since 2004, when podcasting first became popular among bloggers and software developers. Podcasts cover all sorts of subjects, from technology to politics, to art and literature. Apple made podcasting part of its iTunes package in 2005, and last year, Sony Entertainment released a statement saying that its Play station Portable would be compatible with podcasts.

Now, podcasting has become a part of conventional media. The technology is being used by news stations and newspapers around the world, including The New York Times, The San Francisco Chronicle, the BBC, ABC in Australia, and Sirius satellite radio. The popularity of podcasting is expected to continue to grow, as print media becomes a less vital part of day-to-day communication. Check out New Technology TV for more information.

Why Are Teens So Stressed Science Fair Projects

The topic of your science fair project is critical to its success. If you select a topic that you are not interested in you will find the process of completing a science fair project boring and tedious. However, you can overcome this problem by focusing on something that either interests you or that impacts your life directly. Here is a topic for this year’s science fair project “why are teens so stressed?”

Background Research

“Why are teens so stress?” This is the topic for your science fair project this year. So now that you have a topic your next step is to conduct research on this subject. This research will need to begin with a general search of teen stress. The results from this search will provide you with leads on what is stressing out teens and what research has already been done.

Develop a Hypothesis

Now that you know a little bit about your topic your next step is to develop a hypothesis. Your hypothesis will predict what is stressing out teens. For example, your hypothesis may be that teen stress rates are impacted directly by the stricter entrance requirements for college.

Develop an Experiment

After you have a hypothesis you will need to find a way to test that hypothesis. If your hypothesis is that teens are stressed by the increase in acceptance standards of colleges then you will need to design an experiment that tests how these higher standards are impacting student stress levels. You can do this by collecting data on college entrance requirements from the 70s and comparing them to those of today, and you can also conduct interviews with teens to figure out how stricter college entrance requirements are impacting their stress levels.

Collect Data

Data collection for this type of science fair project will involve collecting data and information from government and nonprofit sources, as well as collecting data directly from your own test subjects. When you are collecting data from your test subjects make sure your test conditions remain constant for each experiment. This will help to ensure your data is reliable and valid.

Where To Look For Forensic Science Technician Jobs

If you are interested in forensic science technician jobs, and have completed a degree program in forensics (or chemistry or biology with a concentration in forensics, depending on what was available to you), there are a lot of places where you can look to try to find available forensic science technician jobs.

Before starting your job search for forensic science technician jobs, it might be useful for you to go to the US Department of Labor Bureau of Labor Statistics website (www.bls.gov) to find out what type of salary you should expect for different types of positions in different locations.

The American Academy of Forensic Sciences lists forensic science technician jobs on their website at www.aafs.org. There aren’t necessarily a lot of positions posted here at any one time, but it is a good place to start your search.

You can also look for forensic science technician jobs on general job search websites. However, as there are many possible titles for these jobs, you should be sure to search under all the possibilities. These include: Ballistic Expert, Ballistician, Forensic Ballistics Expert, Crime Lab Technician, Crime Laboratory Analyst, Crime Scene Analyst, Crime Scene Investigator, Crime Scene Technician, Crime Specialist, Criminalist, Criminologist, Evidence Technician, Fingerprint Classifier, Fingerprint Expert, Forensic Chemist, Forensic Investigator, Forensic Pathology, Forensic Scientist, Keeler Polygraph Operator, Latent Fingerprint Examiner, Lie Detector Operator, Polygraph Examiner, Polygraph Operator, Ballistic Technician, Evidence Technician, and Forensic Science Technician, among others.

Different forensic science technician jobs focus on different aspects of the job. You might want to concentrate on applying for the forensic science technician jobs which require the skills you have the most experience with, or enjoy the most. If you have a lot of experience with polygraph tests, it might be better to apply for a Polygraph Examiner Position rather than a more general Forensic Science Technician.

According to Payscale.com, if you are just getting started out on your career, you can expect to make a median salary of $30,000 to $40,000 per year or so for forensic science technician jobs. Those with 10 years experience in forensic science technician jobs have a median salary of $64,998 per year, so experience definitely makes a difference in salary for this career.

Working for the federal government is also likely to pay more than working for state and local governments or a university. Location also makes a difference, with those working in some cities making much more than those in other cities. Source : certforensictechnician.com

Modern Technology In Sports

What is it about sport that makes it so attractive to people? Is it the adrenaline rush of competitive and/or dangerous sport? Is it the feel good factor of recreational sport; is it the opportunity of socialising with others, or perhaps all of the above? Whatever the reasons may be, sport is certainly getting more and more popular, especially in the developed world.

A major factor in the popularity of sport is the role of modern technology. Improvements in modern technology have resulted in better playing conditions and equipment for players as well as greater viewing pleasure for spectators.

Perhaps the greatest changes have taken place in the designing of sporting facilities – such as modern sports surfaces and improved artificial lighting that offer increased opportunity to play. Modern sports surfaces are low maintenance, therefore low cost, and allow year round use. Professional technical expertise is needed to design and install a modern sports surface. Properties such as its rebound resistance, slip resistance, and shock absorption are measured to ensure that the surface is going to provide optimum playing conditions for that sport, whilst giving players ease of movement and adequate protection from injury. Regular maintenance of sports surfaces, both outdoor and indoor is recommended to ensure safety of players.

Along with an increased number of players there are also an increased number of viewers all over the globe. With the spread of satellite TV, events in one part of the world can be watched real time, in another. Modern flood lighting has not only allowed greater use of sports facilities at the recreational level, but also made possible higher-level competition fixtures such as day-night cricket matches, night-time football matches etc. Electronic score boards, photo-finish timing devices, slow motion replays and large viewing screens have also added to the viewing pleasure of spectators.

Modern materials are used in the manufacture of synthetic sports surfaces as well as sports equipment. Third generation synthetic grass is made from polymers and provides a maintenance free all-weather surface for sports. The use of composite materials makes sports equipment such as rackets and protective gear, lighter and more durable, enabling athletes to further improve their performance. Advances in modern technology have also led to improvements in the design of sports equipment such as trainers and sports shoes, starting blocks for use in athletics, pole vaults etc.

Whilst it is difficult for the average user of sporting equipment to keep up with the latest developments, as a guide in the UK sports equipment and sports facilities and surfaces should comply with British standards. Some governing bodies of individual sports also offer certification to demonstrate compliance with international standards.

Potential Of Open Source Technologies

Open source technologies have emerged as a serious threat to proprietary software owing to their free to use nature. The popularity of open source technologies has forced companies selling proprietary software to roll out cheaper versions of their software. It has also forced these companies to innovate and add value to their existing range of software products.

Open Source Technologies when used to develop ERP systems have the potential to drastically reduce the marketing, distribution and sales costs of organizations selling ERP software. Existing proprietary ERP systems are too costly to install and require a lot of customization to suit the specific requirements of an enterprise. Open source softwares allow the source code to be modified by users in line with the changing dynamics of the market. Proprietary systems, on the other hand, do not give such freedom to users and for every modification; users have to depend on the vendor. This proves to be a costly exercise but since proprietary systems are slightly more secure than open source systems; organizations that are paranoid about security usually opt for the former.

Open source technologies are an ideal way for companies to execute internal projects at the lowest cost. If the applications that need to be developed do not have a bearing on customer satisfaction then the sensible way to develop them would be to use open source technologies. However, customer facing websites and applications would require the support of a vendor if the applications have been built using open source technologies.

By exerting a downward pressure on price, open source alternatives indirectly help in improving the PC penetration in developing countries as more number of people are able to take advantage of software systems to improve their daily lives. Open source technologies also help companies to reduce the cost of setting up and maintaining their telecom infrastructure. Open Source Technologies have helped students, amateurs, professionals and those in the SOHO segment of the market to build applications without bothering about software and licensing costs.

Open source technologies have helped immensely in the promotion of e-learning technologies. Being free to use they have helped in lowering the cost of delivery and therefore helped a larger section of the audience to take advantage of open source technologies. Shopping cart solutions built on the open source platform have helped companies to set up and maintain online storefronts at very low costs. Easy availability of shopping cart solutions has helped in the development of an internet economy.

Examples Of Science Fair Projects

Examples of Science Fair Projects

Part of the preparation that is completed by the teaching staff in readying a science fair event is presenting the ideas to the students. Some students are very interested in these types of extracurricular events and other students would just as soon remain anonymous in the back row of the class. This aspect of preparation involves a sales pitch of sorts from the teacher. She or he must present the idea to the class while fostering the encouragement for the students to participate. The prizes and recognition will motivate some students and other students will be motivated by the opportunity to explore some topic that interests them. The latter set of students will need little encouragement and former group will likely retain enough interest to at least consider what the teacher is presenting. One way to sell the class on these events is to show them examples of science fair projects.

One of the most effective examples of science fair projects is the stink bomb.
If students were to rank their favorite among the examples of science fair projects, this smelly chemical reaction would be in the number one position. There are two reasons for using this example of science fair projects. The first is to get the attention of the students hiding on the back row and convince the others that this can be a fun and enjoyable process. There is nothing quite like a demonstration to win over a crowd of less than enthusiastic teenagers! The second reason is that if you use this example of a science fair project in class then the students cannot use it in the science fair. This clever reason prevents all the mischievous students from showing up to the science fair with all manner of smelly projects. By using this as examples of science fair projects in class you take it off the table as a possibility for student experiments.

Once the teacher has gotten the attention of the whole class and the neighboring classes down the hall with the stink bomb, she or he should have no trouble signing up the students for this event! Once this is done the students can begin discussing what topics they would like to demonstrate at the now popular school science fair.

LG Sciences Advances Creatine Science

There are many Creatine’s on the market today. How do you choose the most effective? LG Sciences has released an advanced Creatine Complex that is light years ahead of it’s competition. Cold Fusion EX.

With all of the choices out there how can we decide what is the best form if such a thing actually exists. Creatine is an amino acid that is naturally occurring in the body and provides cellular energy and a host of other benefits to both the bodybuilder and general health enthusiast. In fact creatine is even being looked at to provide increased energy and wellness benefits for the elderly. It may provide heart benefits and also increase mental acuity for people that have diseases like Alzheimer’s. Creatine is responsible for turning ADP into ATP which is your body’s main energy supply in the mitochondria. ATP is split to form ADP (losing a phosphate to create energy) and Creatine Phosphate “hangs around” to recharge the ADP molecule so it can be used to create energy again. Any Creatine is converted to Creatine Phosphate in the body, but oddly enough taking Creatine Phosphate as a supplement never really gave the kind of results that were achieved by many other creatine types, so it was effectively scrapped. Creatine is the base product for any bodybuilder looking to increase size and strength. It adds well to any other product and the only thing more basic than creatine is a protein supplement. Creatine helps the muscle cell hold more water, which can expand the fascia of the muscle increasing its volume. So, creatine is useful for strength and stamina by recharging the muscle energy system, it also increases new muscle cells (monohydrate for sure) and increases pumps for a muscle stretching effect. It is the most popular and beneficial supplement ever for bodybuilders.

Here is a basic list of just some of the Creatines on the market:

Creatine Monohydrate this is the original version sold back in the 80’s for improving strength and stamina for weightlifters. It is tried and tested, however it has been replaced with newer and fancier creatine molecules. I HIGHLY suggest supplements still contain some creatine monohydrate for one big reason. Creatine monohydrate is the only form proven in scientific studies to create new muscle cells. There are many studies showing Creatine Monohydrate increases the formation of new muscle cells and one important study showing that other forms of creatine do not have this effect!

Creatine Malate this is creatine bound to malic acid. The preferred form is DiCreatine Malate since that is the only form that is possible, the other forms (tricreatine malate) are usually just creatine monohydrate mixed with straight malic acid. The supposed benefit of Creatine Malate is reduced bloating and increased endurance, since malate is involved in increasing cellular energy by being part of the krebs cycle. Overall, this ingredient has many years of solid anecdotal support and I feel it is a good addition to any creatine blend.

Electronics Gadgets For Idiots Four G Technology

For somebody who’s a techie, 4G is something you ought to already be familiar with. However, if you’re not one of those who’s fond of electronic gadgets, you should know that there’s more to 4G than meets the eye.

4G is commonly referred to as beyond 3G, a fourth generation wireless technology equipped with a more comprehensive and secured Internet Protocol. It is well-known to provide users with higher speed and better quality anytime, anywhere. It’s packed with better features compared to its predecessors.

Contrary to what others may suppose, 4G is not limited to mobile phones alone but also in computers. If you’re someone who’s fond of watching videos online, you’ll find that 4G provides high definition videos regardless of your whereabouts. You can surf the World Wide Web faster using any web-enabled devices you have by connecting them to the 4G modem. You can chat with your friends faster, hear their voices clearer and monitor their cams with no pauses and disruptions. You can also share pictures and videos without too much hassle. In case you’re going out, you can still use your mobile to surf the net with 4G mobile technology.

So why is 4G highly regarded than 3G or other types of mobile phone network? We are living in a high-tech world where additional technological innovations are discovered almost everyday. 4G happens to be one of the most advanced and recent mobile phone networks in today’s age. It is the network of choice by many since it is very accessible. It also has a very high data rate amounting to 100 Mbps and a very extensive bandwidth capacity which added networks fail to provide.

There are pitfalls though. The main one is that as a cutting edge technology there is likely to be very few places that actually have a 4G network in position.

Chances are it is used first in highly urbanized areas before it spreads out to rural areas. To remedy this problem, various companies set 4G hotspot areas where users can go to and use it free of charge. In some cases, there are computers which aren’t applicable with 4G since it’s engineered for Windows.

Today, almost all kinds of cell phones are suitable for 4G. Nevertheless, many techies believe that smart phones are the best because of their quality digital cameras. Others use T-mobile and iPhones which are likewise 4G compatible devices. Another concern will be the price. You can have these gadgets with or without 4G contract. A device with a 4G contract is cheaper with price starting at 199 to 299 US Dollars while those without a contract can cost you 599 to 699 US Dollars.

Switching to 4G is a good option you can make especially if you’re someone who’s into the latest technological craze and doesn’t want to be left behind. With so many features it offers, 4G is certain to change the way you look at technology.