Is your DRIVE C:/ is full & you want to install a Big Software..

Q:-My Computer DRIVE C:/ is full and i want to install a new software. What should I do?

Q:-My Computer is slowing because Drive is full.What should I do?

Ans:-Some times your drive(usually C:/) may be full of useful software -(However, windows always wants to install all programs to “c:\program files”)- and if you did not want to remove any of them and also want to install a new one then will you need to install it in another drive may be in D:/ or E:/ (in whichever you want) but some software didn't allow you to choose the drive where it is being installed then you need to Change you default Software installation Drive.So how can you do this look out below.->

It will also increase your computer Speed and prevent your software from being deleted when you reset you drive C:/ or install a new OS.

Your Computer Must Have at least two or more drive Installed to change it.

1.Make a backup of your registry using any "registry backup" software.

2.Move to start button and in run type "regedit" (you must be logged in as Administrator).

3.Navigate to:"HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\Windows\CurrentVersion"

by clicking on "HKEY_LOCAL_MACHINE"

then on"SOFTWARE"

then on"Windows"

and at last on"CurrentVersion"

After clicking it you will see "ProgramFilesDir" at the side.

4.Double click on "ProgramFilesDir" and you will see "C:\Program Files" written in second line.

5.You just need to change the Drive letter (C:/) to whichever you want maybe D, E, G any.

6.click OK and close the editor and Restart Your Computer Several Times.

*If you get any error message then restart your computer again till the error end up.

Fact:-*You don't need to make a "Program Files" folder in the drive in which you are changing to it will automaticaly created.

*Your Previous installed software will work as it is working Priviously No error.

*Never Move any System File from one drive to other it can cause system Damage.

You are using this at your own risk.

IF ANY PROBLEM COMES OUT MENTION IT HERE OR ASK ANY OTHER QUESTION.using comment.

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3D printing-virtual printing

3D printing is a form of additive manufacturing technology where a three dimensional object is created by successive layers of material. 3D printers are generally faster, more affordable and easier to use than other additive manufacturing technologies. 3D printers offer product developers the ability to print parts and assemblies made of several materials with different mechanical and physical properties in a single build process. Advanced 3D printing technologies yield models that closely emulate the look, feel and functionality of product prototypes.

In recent years 3D printers have become financially accessible to small and medium sized business, thereby taking prototyping out of the heavy industry and into the office environment. It is now also possible to simultaneously deposit different types of materials.

While rapid prototyping dominates current uses, 3D printers offer tremendous potential for production applications as well. The technology also finds use in the jewellery, footwear, industrial design, architecture, automotive, aerospace, dental and medical industries.

In recent years 3D printers have become financially accessible to small and medium sized business, thereby taking prototyping out of the heavy industry and into the office environment. It is now also possible to simultaneously deposit different types of materials.

While rapid prototyping dominates current uses, 3D printers offer tremendous potential for production applications as well.The technology also finds use in the jewellery, footwear, industrial design, architecture, automotive, aerospace, dental and medical industries.

Technologies

Previous means of producing a prototype typically took many hours, tools, and skilled labor. For example, after a new street light luminaire was digitally designed, drawings were sent to skilled craftspeople where the design on paper was painstakingly followed and a three-dimensional prototype was produced in wood by utilizing an entire shop full of expensive wood working machinery and tools. This typically was not a speedy process and costs of the skilled labor were not cheap, hence the need to develop a faster and cheaper process to produce prototypes. As an answer to this need, rapid prototyping was born.

One variation of 3D printing consists of an inkjet printing system. Layers of a fine powder (plaster, corn starch, or resins) are selectively bonded by "printing" an adhesive from the inkjet printhead in the shape of each cross-section as determined by a CAD file. This technology is the only one that allows for the printing of full colour prototypes. It is also recognized as the fastest method.

Alternately, these machines feed liquids, such as photopolymer, through an inkjet-type printhead to form each layer of the model. These Photopolymer Phase machines use an ultraviolet (UV) flood lamp mounted in the print head to cure each layer as it is deposited.

Fused deposition modeling (FDM), a technology also used in traditional rapid prototyping, uses a nozzle to deposit molten polymer onto a support structure, layer by layer.

Another approach is selective fusing of print media in a granular bed. In this variation, the unfused media serves to support overhangs and thin walls in the part being produced, reducing the need for auxiliary temporary supports for the workpiece. Typically a laser is used to sinter the media and form the solid. Examples of this are SLS (Selective laser sintering) and DMLS (Direct Metal Laser Sintering), using metals.

Finally, ultra-small features may be made by the 3D microfabrication technique of 2-photon photopolymerization. In this approach, the desired 3D object is traced out in a block of gel by a focused laser. The gel is cured to a solid only in the places where the laser was focused, due to the nonlinear nature of photoexcitation, and then the remaining gel is washed away. Feature sizes of under 100 nm are easily produced, as well as complex structures such as moving and interlocked parts.

Each technology has its advantages and drawbacks, and consequently some companies offer a choice between powder and polymer as the material from which the object emerges.Generally, the main considerations are speed, cost of the printed prototype, cost of the 3D printer, choice of materials, colour capabilities, etc.

Unlike "traditional" additive systems such as stereolithography, 3D printing is optimized for speed, low cost, and ease-of-use, making it suitable for visualizing during the conceptual stages of engineering design when dimensional accuracy and mechanical strength of prototypes are less important. No toxic chemicals like those used in stereolithography are required, and minimal post printing finish work is needed; one need only brush off surrounding powder after the printing process. Bonded powder prints can be further strengthened by wax or thermoset polymer impregnation. FDM parts can be strengthened by wicking another metal into the part.

Applications

Standard applications include design visualization, prototyping/CAD, metal casting, architecture, education, geospatial, healthcare, entertainment/retail, etc. Other applications would include reconstructing fossils in paleontology, replicating ancient and priceless artifacts in archaeology, reconstructing bones and body parts in forensic pathology and reconstructing heavily damaged evidence acquired from crime scene investigations.

More recently, the use of 3D printing technology for artistic expression has been suggested. Artists have been using 3d printers in various ways.

3D printing technology is currently being studied by biotechnology firms and academia for possible use in tissue engineering applications where organs and body parts are built using inkjet techniques. Layers of living cells are deposited onto a gel medium and slowly built up to form three dimensional structures. Several terms have been used to refer to this field of research: Organ printing, bio-printing, and computer-aided tissue engineering among others. 3D printing allows to manufacture a personalised hip replacement in one pass, with the ball permanently inside the socket, and even at current printing resolutions the unit will not require polishing.

The use of 3D scanning technologies allow the replication of real objects without the use of molding techniques, that in many cases can be more expensive, more difficult, or too invasive to be performed; particularly with precious or delicate cultural heritage artifacts.

Future applications may allow many of the familiar pieces of furniture in a contemporary home to be replaced by the combination of a 3D printer and a recycling unit. Clothing, crockery, cutlery and books can already all be printed on demand and recycled after use, meaning that wardrobes, washing machines, dishwashers, cupboards and bookshelves may eventually become redundant.

Advantages

• On-the-fly modeling enables the creation of prototypes that closely emulate the mechanical properties of the target design
• Some technologies allow the combination of black and white rigid materials in order to create a range of grayscales suitable for consumer electronics and other applications
• Save time and cost by removing the need to design, print and ‘glue together’ separate model parts made with different materials in order to create a complete model.

Equipment

A large number of competing technologies are available in the marketplace. As all are additive technologies, their main differences are found in the way layers are built to create parts. Some methods use melting or softening material to produce the layers (SLS, FDM) where others lay liquid materials thermodynamics sets that are cured with different technologies. In the case of lamination systems, thin layers are cut to shape and joined together.

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Again! A Burning Tata Nano(45 min journey)

See the picture and you can actually imagine the fact a new Tata Nano caught in fire.

Silver color Tata Nano No. = MH03-AW 913, with A/C and a power steering features, probably one of the top Nano model of worth 2.4 Lakh rupees burst on Express Express Highway at 3:45 pm on Monday, 22nd March’10.

Mr. Satish Sawant, an insurance agent, collected his brand new Nano car from Prabhadevi showroom and only after 45 mins, he saved himself from this accident when a motorcyclist told him about fire. Satish & his driver both jumped out the car.

This is not the 1st time, Nano is burning. Already 2-3 Nano cars have been burst. There are no comments from Ratan Tata yet but we hope to hear very soon from him or his team.

Now the questions arises:

• What about people safety?
• Is money less important than human’s life?

No doubt, we all are happy with cheapest car model produce in India but these types of accidents creating big questions on the reliability of Nano. What do you think people, share your views.

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Thunder- sound and lightning

Thunder is the sound made by lightning. Depending on the nature of the lightning and distance of the listener, thunder can range from a sharp, loud crack to a long, low rumble (brontide). The sudden increase in pressure and temperature from lightning produces rapid expansion of the air surrounding and within a bolt of lightning. In turn, this expansion of air creates a sonic shock wave which produces the sound of thunder, often referred to as a clap, crack, or peal of thunder.

Thunderstorm

A thunderstorm, also known as an electrical storm, a lightning storm, or simply a storm is a form of weather characterized by the presence oflightning and its acoustic effect on the Earth's atmosphere known as thunder.The meteorologically-assigned cloud type associated with the thunderstorm is the cumulonimbus. Thunderstorms are usually accompanied by strong winds, heavy rain and sometimes snow, hail, or no precipitation at all. Those which cause hail to fall are known as hailstorms. Thunderstorms may line up in a series or rainband, known as a squall line. Strong or severe thunderstorms may rotate, known as supercells. While most thunderstorms move with the mean wind flow through the layer of the troposphere in which they occupy, vertical wind shear causes a deviation in their course at a right angle to the wind shear direction.

Thunderstorms can generally form and develop in any geographic location, perhaps most frequently within areas located at mid-latitude when warm moist air front collides and border cool air fronts. Thunderstorms are responsible for the development and formation of many severe weather phenomena. Thunderstorms, and the phenomena that occurs along with it, can produce numerous risks and hazards to populations and landscapes. Damages that result from thunderstorms are mainly inflicted by downburst winds, large hailstones, and flash flooding caused by heavy precipitation. Stronger thunderstorm cells are capable of producing tornadoes and waterspouts.

There are four types of thunderstorms: single cell, multicell cluster, multicell lines, and supercells.

Thunderbolt

A thunderbolt is a traditional expression for a discharge of lightning or a symbolic representation thereof. In its original usage the word may also have been a description of meteors, or of the consequences of a close approach between two planetary cosmic bodies, although this is not currently the case. As a divine manifestation it has been a powerful symbol throughout history, and has appeared in many mythologies. Drawing from this powerful association, the thunderbolt is often found in military symbolism and semiotic representations of electricity.

Lightning plays a role in many mythologies, often as the weapon of a sky and storm god. As such, it is an unsurpassed method of dramatic instantaneous retributive destruction: thunderbolts as divine weapons can be found in many mythologies.

• In Hindu mythology, the god Indra is known as the god of lightning. His main weapon is the thunderbolt (Vajra).
• In Hittite and Hurrian mythology, a triple thunderbolt was one symbol of Teshub.
• In Greek mythology, the thunderbolt is a weapon given to Zeus by the Cyclops.
• In Roman mythology, the thunderbolt is a weapon given to Jupiter by the Cyclops.
• In Germanic mythology, Thor is specifically the god of thunder and lightning, wielding Mjolnir.
• In Maya mythology, Huracan is sometimes represented as three lightning bolts.
• In Cherokee mythology, the Ani Hyuntikwalaski ("thunder beings") cause lightning fire in a hollow sycamore tree.
• In Ojibway mythology, thunder is created by the Thunderbirds (Nimkiig or Binesiiwag), which can be both benevolent and malevolent to human beings.

The thunderbolt continues into the modern world as a prominent symbol; it has entered modern heraldry and military iconography.

Lightning

Lightning is an atmospheric discharge of electricity accompanied by thunder, which typically occurs during thunderstorms, and sometimes during volcanic eruptions or dust storms.In the atmospheric electrical discharge, a leader of a bolt of lightning can travel at speeds of 60,000 m/s (130,000 mph), and can reach temperatures approaching 30,000 °C (54,000 °F), hot enough to fuse silica sand into glass channels known as fulgurites which are normally hollow and can extend some distance into the ground.There are some 16 million lightning storms in the world every year.

Lightning can also occur within the ash clouds from volcanic eruptions, or can be caused by violent forest fires which generate sufficient dust to create a static charge.

How lightning initially forms is still a matter of debate: Scientists have studied root causes ranging from atmospheric perturbations (wind, humidity, friction, and atmospheric pressure) to the impact of solar wind and accumulation of charged solar particles. Ice inside a cloud is thought to be a key element in lightning development, and may cause a forcible separation of positive and negative chargeswithin the cloud, thus assisting in the formation of lightning.

The irrational fear of lightning (and thunder) is astraphobia.

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Formatting images for SEO

One of the most commonly known Search Engine Optimization (SEO) tips that go around has to do with the way you name and tag the images that you use on your site. Its fairly commonly accepted by most SEO experts that Google not only looks at the text on your blog in order to measure its worth but that Google’s spidering bots also take a look at the code you use in your image files.

Over the years SEO techniques have been developed to abuse this fact and webmasters have ’stuffed’ their ‘alt tags’ with all kinds of keywords – however Google has found ways to combat this and treats such strategies as spamming their bots now – however it is still legitimate to put keywords in you image tags and I would recommend that you do (within reason).

If I’m writing on one of my technical blogs about a product and want to post a picture – I always make sure that the file name of the picture includes the name of the product (with-hyphens-between-words). The system I use (ecto) to publish my blog uploads photos automatically to set the file name as the ‘alt tags’ (which are the words that come up as your picture loads) and uploads the picture to its own URL with the file name in the actual URL. This ensures that when Google’s bot spiders through your site it sees your keywords an additional few times per picture.

For those that have no idea how to write an Alt Tag into your image – it will usually look something like this

--img src="http://4.bp.blogspot.com/_lNMgJqwiDEY/S53q0ASl4OI/AAAAAAAAAXg/kGEGn2cjwSQ/s1600/facebook.png" alt="these are the keywords I’m targeting" width="75" height="100"--

One last warning – don’t stuff your Alt Tags full of keywords – especially ones that don’t relate to the rest of your page as they run the risk of being seen as spam.

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What is Microsoft Surface?

Microsoft Surface is a revolutionary multi-touch computer that responds to natural hand gestures and real-world objects, helping people interact with digital content in a simple and intuitive way. With a large, horizontal user interface, Surface offers a unique gathering place where multiple users can collaboratively and simultaneously interact with data and each other.

For Users: Microsoft Surface represents a fundamental change in the way we interact with digital content. Leave the mouse and keyboard behind. Surface lets you grab digital content with your hands and move information with simple gestures and touches. Surface also sees and interacts with objects placed on the screen, allowing you to move information between devices like mobile phones or cameras. The result is a fun, social and exciting computing experience like you’ve never had before.

For Businesses: Microsoft Surface provides tremendous potential for businesses to improve communication, and be more efficient in how they deliver information and services to their customers. The intuitive and approachable interface is easy to learn and the familiar software platform makes it easy to manage, too. The multi-touch and multi-user capabilities create an incredibly collaborative experience, where sharing and exploring information is easier than ever.

What are the key capabilities of Microsoft Surface?

Microsoft Surface has four key capabilities that make it such a unique experience:

• Direct interaction. Users can grab digital information with their hands and interact with content on-screen by touch and gesture – without using a mouse or keyboard.
• Multi-user experience. The large, horizontal, 30 inch display makes it easy for several people to gather and interact together with Microsoft Surface - providing a collaborative, face-to-face computing experience.
• Multi-touch. Microsoft Surface responds to many points of contact simultaneously - not just from one finger, as with a typical touch screen, but from dozens of contact points at once.
• Object recognition. Users can place physical objects on the screen to trigger different types of digital responses – providing for a multitude of applications and the transfer of digital content to mobile devices.

Seeing is believing

Take a look at more videos to see Microsoft Surface in action.

How does Microsoft Surface work?

Microsoft Surface uses cameras and image recognition in the infrared spectrum to recognize different types of objects such as fingers, tagged items and shapes. This input is then processed by the computer and the resulting interaction is displayed using rear projection. The user can manipulate content and interact with the computer using natural touch and hand gestures, instead of a typical mouse and keyboard.

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