Ideas For Science Fair Electricity Projects

Science Fair Electricity

In the 21st century those citizens of developed nations often take for granted their access to electricity. We all simply flip a switch and have all manner of electrical gadgets at our disposal. In the last couple of decades these opportunities have grown to include communications across the globe via the Internet. All of this is possible due to our access to electricity and other forms of power. While this has been around over 100 years now, science fair electricity projects are still some of the favorites for students. Many of us who use electricity every day have no idea how or why this works. We are clueless about the science of protons, electrons, and neutrons while reaping their benefits on a daily basis. Students who choose science fair electricity projects are not among the uneducated! They are some of the brightest students who are able to understand the invisible processes required to make the light bulb come on when the switch is flipped up and go off when it is flipped down.

Science fair electricity demonstrations are some of the most interesting at the event. While some projects involve computer graphics or visual representations of the processes that the student has studied, science fair electricity allows for hands on experience. Students who make presentations for science fair electricity events can give live demonstrations of the nature of their subject. There will be groups of students and parents gathered around for a chance to participate in these experiments. All spectators will want to place their hand on the static electricity ball just so their hair will go flying in all directions. Other braver spectators will volunteer to touch their tongue to a potato that they are sure will not shock them. This is always a great crowd pleaser when students get their parents and teachers to volunteer for mild but unpleasant shock!

While all science fair projects hold interest, the science fair electricity projects are definitely the liveliest! Students can use sensation, light and sound to demonstrate their science fair electricity project findings. Students, teachers and parents alike will leave the event with a greater understanding of the properties of electricity by learning the concepts in hands on, or tongue on, fashion!

Technologies for Web 2.0 Websites

Technologies for Web 2.0 Websites

If someone wants to understand what is Web 2.0 design he must first be familiar with what is the meaning of Web 2.0. Web 2.0 phrase stands for the supposed second generation of the web that focuses on collaboration and sharing of information among users.

What was previously one-way highways of the old web is now replaced by a community-driven world of Web 2.0.

Some of the things related to Web 2.0 include , RSS (really simple syndication) feeds, blogs, social bookmarking websites and the like.

All of them have common factors of having interactivity and communication between the website owner and the visitors, as well as among the visitors themselves.

If you want to have a web 2.0 website, there are several skills you need to get the job done. Some need a high learning curve, meaning that they are easy to learn, while others need more effort in order to be executed properly.

I have listed down some of the skills needed in creating web 2.0 websites.

1. Need a graphics editor

– this is very important when you wish to create graphics for your website. A good graphics editor can do jobs such as simple photo editing to more complex ones such as creating gradient and reflection effects. Photoshop and GIMP are popular graphics editors used by designers. GIMP is good if you cant afford photoshop

2. HTML

– HTML is basic of web designing and it is must for any web designer needs to have. HTML is a markup language, and just like other markup languages, it tells the computer how the graphics and other elements of the page will be displayed. Basic tags are enough to let normal users get by, but knowledge of more specialized tags are needed by those who want to build better websites.

3. CSS

– is short for Cascading Style Sheets. It is also a must for a good web designer. Having a style sheet for a website makes it easier for designers to design a page by assigning values to tags such as those used in paragraphs, lists and the likes. With a style sheet, a style can be easily applied by using a variable on any part of the site.

4. Flash

– is a program used for creating animations, games and entire websites. Knowledge on how to use this is a must among web designers. While the basic commands will be enough for most users, Flash?s ActionScript gives people more control over their creations.

Ashok Arora is CEO of web hosting India company and SEO India company, providing web hosting services and SEO services for last many years.

The New Technologies of Flex Pod

The agencies which are responsible for deploying new technologies to deal with heavy workloads have to look for latest inventions everyday to carry on their work smoothly. Their main headache is handling with big data, high performance computing and video analytics. FlexPod Select is specially designed to support huge workload. Flex Pod Select with Hadoop is the first set of reference designs which are preconfigured, validated solutions which is a rare combination of storage, networking and servers. The integration with Hadoop provides an open framework which is capable of processing huge amounts of data. The main target is to meet the requirements of dealing with huge data. This finds application in both government and private sector. Financial services, retail manufacturing and other markets are easily able to deploy this technology and can be kept on upgrading, as the size of the company grows.

The components of FlexPod Select components include NetApp E-Series and FAS storage systems, Cisco Unified Computing System servers and fabric interconnect and Cisco Nexus fabric extender. It is better to combine the NetApp with Cisco for infrastructural support and Clodera or Hortonworks for Hadoop support. This gives access to the users to technical support on all interoperable technologies. With the use of Cisco and NetApp the Flex pod services are expanding further to make the infrastructure in the data center more responsive to the ever changing uses of applications within organizations. New designs and capabilities are offered across the entire portfolio. The companies have also highlighted the invention of the Datacenter with SnapProtect to provide a wide-ranging disk-to-disk-to-tape backup and recovery solution. The Datacenter is a pre-validated solution, which has in store the combination of storage, networking and server components and can integrate them into a single flexible architecture, specially designed for huge workloads. The speed is fast and sometimes is even applicable for critical business applications. The costs are reduced and risk is minimized. Increased flexibility can also be achieved with the help of this technology. The greatest application of this technology is to deal with a variety of workloads in both virtualized and non-virtualized environments. The new Express technology is specially designed for medium organizations.

The management of FlexPod is very simple with the help of best element managers, combination of some of the most reliable partners and virtualization management console. Cisco Unified Computing System Manager tools helps in the optimization of multivendor environment. On Command software controls and helps in the automation of the data storage infrastructure. They also provide embedded management of the servers and the network components. Numerous resources for many virtual machines can be managed.

Too Much Stimulation With Today’s Technology

Is there anything more annoying than that person standing ni front of you in a grocery store or checkout line babbling away on a cell phone while a kind salesperson is trying to help them? The cell phone person nods and points directions at the clerk while enjoying a riveting conversation over nothing. There is nothing more annoying and we won’t even discuss people who miss green lights because of their nonsensical cell phone ramblings.

Turn off the cell phone and turn off the laptop and any other portable device you may be carrying with you. There is a certain amount of excitement and adventure in being inaccessible. It can be a little bit scary at first, not being on the grid, not being in constant communication with everyone on the outside world, but it is necessary to do once in a while to regain your sanity.

People have become so reliant on today’s new technology that personal communication has dwindled to nothing. How many times are you on vacation and someone has to dart back to the hotel room to check on the laptop to make sure no important messages were received on the e-mail? There’s a reason to take vacation, but now the new term is “working vacation.”

If you can just stay away from the cell phone for a few minutes, take a walk around the mall and you will see how many mindless drones are babbling away on their cell phones or texting their friends who are likely in the same mall at the same time. It gets to look ridiculous. If you invite friends with kids over to your house, place a ban on use of your computer or they will just sit there avoiding family time to message their friends.

Everybody needs some time to themselves and nothing short of an emergency is worth so much that it can’t wait a few hours. If you check your Facebook pages, chances are that 99 percent of the messages are just gibberish being written by people with nothing better to do. Take some time away from technology and enjoy life.

Barrel Washer Technologies To Satisfy And Reach Clients Requirements

We are the leading company for supplying drum cleaners to our wide range of clients. We always stick to the quality and customers satisfactions. Different types of drum cleaners have been supplying various industries as per needs and requirements. Nowadays drum cleaners are becoming the mandatory requirements in various industries. Some of our different equipments include washing systems, compactors, and aerosol recovery systems which we started engineering and manufacturing for printing and other industries. Thus we achieved clients from multi companies to small farms across the world.

PW-8 Series is a stainless steel and customized 8 pail rack washer that has the ability to wash up to 8 pails in one wash cycle. W-8 Series has also the ability to wash multiple different sizes of containers ranging from a small 6 ounce container to a larger 5 gallon pail. The Barrel washer utilized Pharmaceutical pumps and tri-clover connections to wash, rinse and sanitize the pails using deionizer water. Explosion proof option is alsi integrated to make sure overall safety of the Barrel washer system as the solvents are volatile compounds and are highly explosive. Application of such explosion resistance motors, controls, and air purged control panel helps to reach the customers satisfaction and has done so reliably.

Our expertise in the industry along with our company guiding principles allows us to move forward in the drum washer industry. We have been and will fully dedicate to the drum cleaners needs of the clients. We also practice the unique and advance ways of doing things which every management structure. We always use new Barrel washer technologies to satisfy and reach clients requirements and it is our open secret for our success from the past years.

We always representing our clients best interest and employing the best professionals to execute the project. We also provide a wide range of custom Barrel washer services bringing outside of the box thinking to offer creative solutions. We have experience engineers who are well experts with the various fields, namely Chemical, Application, Civil, Instrumentation and structural

PW-8 Series drum washer will solve all the laborious and time consuming when any company washes their containers by hand. This PW-8 automated washer cleaner is becoming a mandatory processing system for various companies.

Top 10 Computer Science Programs

The following computer schools programs are considered to be the top 10 computer science programs in the nation, in no particular order:

1. California Institute of Technology: Caltech is considered one of the top computer science programs because the curriculum is flexible to accommodate many educational and career goals, with numerous research options in the field.
2. Carnegie Mellon University: This is one of the best computer science programs because the curriculum is broad, ranging from theory to design to programming, with plenty of research opportunities and many specialized undergraduate and graduate degree options.
3. Cornell University: The computer science programs at this prestigious university are found in the college of arts and sciences as well as the college of engineering, with options for traditional computer science and studies in artificial intelligence, computer graphics, computational biology, etc.
4. Massachusetts Institute of Technology: MIT has a name synonymous with technology, mathematics and the sciences with opportunities for lab work and networking with experts in the field.
5. Princeton University: This is not only one of the top computer science programs, but one of the top schools in the country period. Programs include computational science, languages, programming languages, systems, theory and electives including computational biology, graphics, media and security.
6. Stanford University: This is one of the most diverse computer science programs with curriculum ranging from robotics and AI to more traditional theories and clinical practice in nine specialized tracks requiring research projects within the field.
7. University of California-Berkeley: UC Berkeleys Electrical Engineering and Computer Sciences department is known for using knowledge and technology to understand the human body and to solve problems through various projects.
8. University of Illinois-Urbana-Champaign: This schools computer science program has several important entrepreneurial leaders among its alumni. Specializations include computer science, math and computer science, and statistics and computer science.
9. University of Texas-Austin: With a program known for innovation and research, this is a top choice for anyone looking to use computer science to advance our global society.
10. University of Washington: This is considered one of the best computer science programs because of its award winning faculty and successful alumni.

Find the perfect Computer School today and start your path to a rewarding career.

Environmental advantages of Suspended Particle Device Glass Technology

The idea of the “home of the future” usually contrasts with the idea of environmental responsibility. The perception of technology being detrimental to ecologicial stability is slowly being replaced with the advent of smart technologies such as Suspended Particle Device or SPD glass.

What is SPD Glass?

In the area of light control, there are three main technologies: polymer liquid crystal devices (PDLC), suspended particle devices (SPD) and Electro chromic devices (EC). All three may be used to produce smart glass, which is described as a glass that can change its light transmission when a voltage is applied. In a nutshell these technologies control the opacity of glass via a control method (sensors, remotes, wall switches etc) to regulate the amount of light allowed to pass through it. SPD is generally the technology of choice for use in external or solar control windows because of its reliability, price, performance, and manufacturing advantages and aesthetics.

Energy and Lighting Costs

In terms of home and office environment SPD glass facades, windows and skylights can be used to more efficiently reduce the need for air conditioning during the summer months and heating during winter.

The ability to instantly switch the glass to maximize daylight when it’s really needed and to provide controllable solar shading during peak light conditions is valuable and unique. SPD Glass has even advanced to the stage where light sensors can automatically adjust the opacity of the glass according to programmed settings. This low energy electric current saves overall temperature control and lighting costs and also reduced carbon emissions related to building maintenance.

Hygiene and Health

These SPD glass panels provide a hygienic alternative to curtains and blinds as they do not trap bacteria, grime and dust. Easily cleaned surfaces mean both a savings on cleaning agents and a cleaner environment for homeowners and building owners. Taking advantage of healthy natural lighting without the glare is the smart way to reduce eye strain and protect the skin from UV damage.

Maintenance savings

Professionally manufactures Suspended Particle Device technologies such as SPD glass utilise a highly durable, solid-state technology with no moving parts to wear out or break. Sun damage such a fading carpets, artwork and furniture is also greatly reduced making your interiors last longer. If you combine this interior longevity with the longevity of the physical glass itself you have a winning combination for your pocket and for the environment.

How To Build A Greenhouse Grade 7 Science Fair Projects

A greenhouse is basically a structure that has been designed to capture and retain the heat from the sun. It is used to grow plants when the climate does not want to cooperate. Greenhouses can be used in a number of science fair projects and can be used to test concepts from a variety of fields of sciences including engineering, physics, botany and biology.

Project #1 Capturing Heat Energy

In this project the students will be designing a greenhouse that captures heat energy from multiple sources. They will be capturing heat energy from the sun and geothermal heat energy from the ground. This project will require the student to learn about heat extraction techniques related to solar energy and geothermal energy.

Sample hypotheses that can be tested with this project include:
(1) The thickness of the plastic used for enclosing the greenhouse impacts the amount of heat conservation in the greenhouse;
(2) The opaqueness of the material used for enclosing the greenhouse impacts the amount of heat conservation in the greenhouse;
(3) The depth of the insulation on the floor of the greenhouse impacts the amount of geothermal heat conservation in the greenhouse.

Project #2 Growing Radishes

In this project the student will build a greenhouse so that they can grow radishes and conduct experiments on the radish plants during times of the year that are not normally conducive to gardening. Radish projects can look at a number of things. For example, students can try to cross pollinate radishes with another root vegetable like carrots, they can attempt to grow radishes in sand or they can try to manipulate the size of the radish by exposing the plant to 20 hours of light per day.

Project #3 Engineering Greenhouses

For students that are interested in engineering, greenhouse science fair projects can be developed with an engineering focus. For example, students can try to develop a greenhouse using nothing but materials that are normally thrown out or recycled, such as cans, bottles and plastic containers. Students will not only need to design and build their greenhouse, but they will also need to test the effectiveness their greenhouse has in regards to collecting and conserving heat energy.

Project #4 Studying Solar Energy Applications

The final project option will be an application project. Students will be learning about solar energy and how to use this knowledge to harness the suns energy to heat a greenhouse. For this project students will design and build a greenhouse that maximizes the energy delivered by the sun. A good approach for this project is to see if their design can magnify solar energy within the greenhouse to make it effective in cold weather.

Svc Technology Revolutionizes Video Conferencing

A newly minted standard, called scalable video coding (SVC), enables video streaming at multiple resolutions, quality levels and bit rates. The ability to scale video performance based on the end point is achieved through this relatively new technology called H.264/SVC (Scalable Video Coding) that not only compresses but also distributes the video stream.

The standard allows us to have layers of encoded video, and if we use intelligent devices, it can allow us do lots of other things as well. To understand the principle behind these intelligent devices, we need to look at how videoconferences usually work.

Today’s videoconferencing relies on fairly unintelligent devices at the edge, and intelligence in the core, which is also called a “mainframe” model. A multi-point conferencing unit receives streams of video from each participant, decodes them, combines them and re-encodes them.

The traditional approach of doing encoding and decoding in the core introduces delay. It also means that users all get the same data stream, rather than one suited to their bandwidth, window size and client. In short, transcoding in the cloud makes for lousy conversations.

The SVC architecture puts more intelligence at the edge and a specialized router in the core. In the new model, the router and each participant’s client work together. They tailor data transmission to each client’s demands. When a client shrinks the size of their video window, the router knows and as a result, sends fewer bits, less frames, or lower-quality video to that client without affecting everyone else. The router isn’t busy encoding, merging and decoding streams, but it knows about processing, window size and bandwidth, which it can adjust dynamically throughout the call.

The standard tells us how to decode. The method used to encode is a lot harder and is considered the secret sauce. The router is usually a 1RU, Linux-based quad-core computer that handles up to hundred-way conferences. It is usually sold as a subscription model for about $1,000 per HD port per year, which is cheaper than the traditionally capital-intensive spending around video conferencing. Video gateways that let “legacy” video conferencing hardware work with the new standard are also available in the market.

This technology allows us to get live, four-way web-based conferencing in which each participant may have different local settings from a high-definition video at 60 frames per second to a consumer-grade VGA connection to a notebook camera. And the best part is that a typical broadband connection will suffice for end users.

Two Oled Technologies Amoled And Pmoled

OLED is a new technology that can make thin, efficient and bright displays. OLEDs are made from organic light-emitting materials, and OLEDs do not require any backlight and filtering systems that are used in LCDs. So OLEDs are more simple to make and actually can be made flexible and transparent as well. OLEDs are also very efficient, and companies are working towards OLED lighting – an OLED “lightbulb” will be efficient and thin, opening the way for great new lighting designs.

There are two types of OLEDs used in displays – PMOLED and AMOLED. The difference is in the driving electronics – it can be either Passive Matrix (PM) or Active Matrix (AM).

With Passive-Matrix OLEDs, the display is controlled by switching on rows and columns. When you turn on row number x and column number y, the pixel at the intersection is lit – and emits light. Each time you can choose just one pixel to light. So you have to turn these on and off very quickly. You do so in a certain sequence, and create the desired image. This is somewhat like the interlace-system used in old CRTs, but the control is done pixel-by-pixel.

PMOLEDs are very easy and cheap to build, but they are limited to small sizes (up to 3″, typically). The image displaying is a bit complicated (because of the row/column method). Also the power consumption is not as good as AMOLEDs.

AMOLEDs have a different driver electronics – each pixel is controlled directly. AMOLEDs are more expensive, and much more difficult to create, but can be used for larger displays (current prototypes are up to 40″) and are very power efficient.

The first OLED products in the market used PMOLEDs – these were MP3 players, sub-displays on cellphones and radio decks for automobiles. The displays were small and usually with just one or two colors. When AMOLED panels started to emerge in 2007 and 2008 we have seen these larger displays in mobile video players, digital cameras, mobile phones main displays and even OLED TVs.

PMOLEDs are still very popular – there are more MP3 player sold today with PMOLED than with LCDs. But for larger displays, AMOLED is the best technology, and is growing much more quickly than PMOLED displays. Obviously for larger displays, such as TV, laptop monitors or PDAs, AMOLED is the only choice.

Today there are several companies that are working on technologies that actually close the gap between PMOLEDs and AMOLEDs – offering a sort of hybrid system. The promise is that these displays will be both easy to make and allow power efficient larger displays. We still have to wait and see whether these technologies actually work on commercial displays. One such technology is Dialog’s SmartXtend.