Computer

Well, we’ve been warned that this time would come – probably from the earlier eighties on. Yes, computers have finally taken over and if you doubt it, we’re here to convince you – but not because we want to or because we can. We want to convince you that if you don’t take the necessary steps to control that reign, you’re going to be left behind further than you could have ever imagined.

Computers are everywhere. Take a moment to try and think of a place a business where you didn’t see a computer in use. From the small local corner store to the largest hospital, computers are in every gas station, grocery store, bank, restaurant, beauty shop, and doctor’s office around. From a consumer’s point of view – you may not think that’s much to worry about. But along with computers, we’ve also been infiltrated with a little thing called “self-service.” Today, there are more self-serviced resources than ever and in an effort to synchronize them with headquarter databases, they’re provided via your inescapable computer.

Here are some examples. Banking is self-serviced through the desktop-clad ATM machine. Gas stations are self-serviced through a menu-clad touch screen kiosk. Most cash registers are Windows XP or Vista machines that send purchase details back to headquarters via the Internet (or a small Intranet). Having your weight, blood pressure, and heart rate measured and recorded is now a digitized process. Even ordering a pizza is now a simple matter of dialing from a wireless cell phone and making a few selections from series of pre-programmed menus!

The important thing to realize here is that this phenomenon isn’t a new convenience – it’s a new requirement. And if you haven’t jumped onto the binary wagon, you’re going to face a few problems. For just as this new lifestyle was once predicted, we’re going to predict that “the old ways” will slowly disappear.

We’re going to predict that all paper-based transactions (checks, money orders, etc.) and documentation (think of the old filing cabinet system) will disappear. We’re going to predict that chips will replace everything that was once transported from one location to another through the trusty post office. And we’re going to predict that homes will become less cluttered with stacks of paper and that our natural resources will flourish as a result of it.

This all sounds fine and dandy of course, but if you’re not computer savvy, you’re going to feel a little lost once the choice has past and the revolution is 100% complete. Fortunately, computer systems are designed in a way that even a child can manipulate them. In fact, if you can remember that most systems are designed along the line of menus and the selections of a few options on these menus, you’ll do just fine no matter how many buttons there are to push.

For example, when you’re faced with an electronic system, look for a main menu. Most main menus display themselves as soon as a device is turned on, so chances are that if you’re standing before a device that shows a bunch of choices to do something, you’re looking at a main menu. The buttons on these main menus of course take you to additional menus, which in turn give you even more choices to make. And all of those choices will eventually bring you to the service that you need. One very important choice you’ll want to keep your eye on is the option to return to the main menu. This way, you can return to the beginning of a system and start over in case you get lost among the way.

Another important choice that you want to keep your eye on is the choice to get help! This option may not be available on every device that you encounter, but when it is available, be sure to use it.

There’s just no way around it. Computers and computerized systems are here to stay. There’s no need to fear them – but you surely can’t avoid them. Just remember the menu system and you’ll soon discover that you can approach and use these things as if you designed them yourself.

When it comes to maintaining your computer, you’ve probably heard it all before. “Run Defrag!” “Scan Your Disk for Errors!” Although these two activities are important, there’s more you can do to extend the life of your computer beyond today’s predicted two-year span. In fact, by following the simple advice below, you can enjoy the use of your computer to up to five years or more – reserving expenses to simple software upgrades rather then complete and costly hardware upgrades.

One of the easiest and least expensive things you can do to extend the life of your computer is to get rid of unnecessary programs, folders, and files. A disk drive that’s clogged with unnecessary and unused files is disk drive that works harder than it has to. Although Window’s defrag system can ease some of the stress that these files place onto the drive, it doesn’t do much to get rid of the problem in the first place. This is because the defrag program simply organizes the files in a system that makes it easier for the computer to access. (Thus cutting down on the work required to find and load them). But this method merely “relieves” the symptoms that these files induce – it doesn’t attack the cause. These files need to be deleted – not “organized!”

Of course, deleting files can be a scary adventure to most users. Most computer users don’t know which files are safe to delete and which aren’t.

The worst thing anyone could do is snoop around crucial Window directories and haphazardly delete files that don’t look familiar. Doing so could render important programs inoperable, corrupt the Windows operating system, and possibly prevent the computer from even starting. That’s why using special deletion software is so important. Deletion programs will analyze a computer’s operating system and installed programs to determine which files are crucial to computer function versus which files are safe to delete.

You already have such a program on your computer and it’s Windows’ Add/Remove Programs (available from the Control Panel). This software will assist you with deleting programs that you not only no longer want, but additional files that these program use as well (dynamic link libraries, database files, registry references, shortcut icons, etc.).

But sometimes Windows’ Add/Remove Programs isn’t enough. Although this software does a pretty good job of removing unwanted programs, it can leave some files behind even after a complete uninstall – files which become orphan files. And it’s these orphan files that can really clutter up a hard drive and shorten the life of an otherwise, young and robust PC.

Orphans are usually files that contain temporary data created by a program, files created by the user, partial files left over from a computer crash, or any other kind of miscellaneous files created for almost any other reason. The problem is that an uninstall program doesn’t delete the orphan files it leaves behind because they were never part of the program when it was first installed. An uninstall program can remove only the files it placed onto a hard drive during its install routine.

So while Windows’ Add/Remove Programs can remove an entire program, you’ll need to get rid of those pesky little things with a more advance file cleaner like CleanSweep for example. CleanSweep is a unique program that will specifically seek out files that are no longer associated with a program, and then ask if you want to delete them.

The only time that you wouldn’t want to delete an orphan file is if the file were an actual document that you created before deleting a program. If you were to say, uninstall Microsoft Word, all the documents that you created with Word would then turn into orphan files. Or if you were to uninstall a graphics-editing program, all the pictures you made with the program would become orphan files.

The smart thing to do when you don’t want to lose the data that you created with an unwanted program is to:

1. Save or convert your documents to a format that will work with different program first (that is, a program that you intend to keep)
2. Archive them onto a floppy disk, flash drive, or CD-ROM
3. Proceed with a program like CleanSweep.

Using CleanSweep or any other similar type of utility could delete anywhere from less than a megabyte of hard drive space to over five megabytes and up. That may seem like a small amount of “clog material” to you, but to your computer, it’s a lot less to process!

Over recent years, computers have become synonymous with viruses and viruses don’t show any signs of disappearing any time soon. In recent news, LiveScience.com reported that “Before the month is even done, April has set a record for virus e-mails.”1 In the past, we would be comfortable in telling new computer users not to worry about viruses and that catching a computer virus is rare. Today, that would be some of the worst advice we could give anyone. As reported in countless news reports, computer viruses are rampant and they’re extremely worrisome. This article will describe what viruses are and then point you in the direction of some rather unique protection and prevention.

In short, a computer virus is a software program designed to destroy or steal data. It attacks computers via distribution – often unknowingly – through email attachments, software downloads, and even some types of advanced web scripting. Viruses that destroy data are known as Trojan horses, viruses that explode their attacks are called bombs, and viruses that duplicate themselves are called worms. Some viruses are a combination of each, however they can be further identified according to where they’re located on a computer.

A virus originating from the boot sector of a computer is a boot-sector virus and this nasty devil does its dirty work the moment a computer is turned on. A virus that attaches itself to (infects) other programs is a file virus and activates the moment that an infected program starts. File viruses may also be referred to as parasitic viruses, however should a virus work from both the boot-sector and from an infected program, the virus is then known as a multipartite virus.

Why viruses exist remains a mystery, however we had privy access to the mind behind a virus programmer who explained his motivation behind his destructive inclinations. Apparently, this person had a deep grudge against a popular online service which shall remain unnamed. In this hacker’s mind, the online service failed to do a quality job in protecting children from online smut and as retaliation, he created and distributed a virus to as many file libraries of this service as he could. His intentions were to disable the computers of the online service’s users so much that they wouldn’t be able to connect for days. In his mind, the loss of connection meant loss of revenue for the online service.

Although the malicious code that this person generated may have worked for a small percentage of users, sufficed to say, the online service continued on and still exists today. Despite his motivation or intention, his efforts were null.

We wouldn’t be surprised to learn if other motivations behind spreading viruses were similar to this person’s, but that doesn’t justify the damage that viruses do. Innocent people become pawns for the evil plans of others who’ve convinced themselves they’re doing the “right” thing.

To protect a computer from getting a virus, or clean a virus from a computer system once infected requires the use of an antivirus utility. But may be something else we can do. Perhaps we could make an effort to educate the people who want put viruses into the public about ways to display dissatisfaction with a service or product that don’t involve harming innocent parties. In doing so, we just might reduce the number of virus news stories and protect our own investments at the same time.

Every new computer that’s brought home from the store has an operating system installed onto it. But what most new computer users don’t realize, is that without an operating system, that computer would be a simple shell of possibilities. A powered computer lacking an operating system wouldn’t display anything more than a bunch of confusing text messages that describe the computer’s boot process. At the very end of this process, the computer looks for an operating system and if not found, it will prompt the user to tell it where it is.

Earlier computers didn’t have an operating system and if you have experience with the computers of the early eighties, you’ll remember that most to them didn’t even have a hard drive! These old computers booted an MS-DOS type operating system from drivers stored onto a floppy disk, and in order to use a program, users would remove the boot floppy and then insert a new floppy that contained the program. The floppy not only stored the program (word processor, spreadsheet, etc.), it also stored the drivers that the program needed to communicate with the computer’s hardware. As you can imagine, the cumbersome process of switching from floppy to floppy prompted the birth of the operating system.

An operating system is a software program that controls how the computer’s hardware (and installed software) works. It manages the activity of every component and then displays that activity as a user-friendly interface (GUI). It keeps track of where things exist on a computer’s hard drive as well. But perhaps most importantly for the end-user, the operating system is responsible for translating commands issued with a keyboard and mouse into binary code (010110101 stuff) that can communicate with a set of speakers, a printer, a scanner, and more.

With an operating system installed onto a computer’s hard drive, users no longer need to boot a computer with a floppy disk, nor do they need to run programs from a floppy disk. All the drivers of a program are stored onto the computer and used whenever a program is started.

Apple’s Macintosh computer was among the first of a couple systems to establish a user-to-hardware relationship through a user-friendly interface. Today, we have quite a few operating systems. Some of the more popular ones are Windows Vista, Mac OS X, ZETA, IBM, Unix, and Linux. But even still, operating systems have extended onto to non-computer devices such as game consoles, portable music players, and PDAs. Regardless of the device, the operating system installed onto it serves the same purpose across the board: to enable user-to-hardware communication.

When you think about upgrading your computer to a new operating system, be careful to make sure that you have the necessary hardware components. We tried to upgrade one of our Windows 98 machines to Windows XP, but we were cautioned that the former may not be hardware compatible with XP technology. Apparently, the Windows XP operating system requires components that weren’t developed at the time Windows 98 was distributed and if we were to install Windows XP on this machine anyway, the new operating system would look for hardware that the computer didn’t have. And that would be an instant recipe for failure.

Also be careful about installing operating systems that are incompatible with existing hardware. The hardware of Macintosh computers is extremely different from the hardware of Windows computers and under no circumstances will a Windows operating system work on a Macintosh machine!

Like electronic identity theft, computer viruses, and the spread of other computer crimes, software piracy is on the rise. The problem with software piracy is that software costs make this illegal activity appealing to the end user. After all, who is it going to hurt? Rich software companies?? This article investigates software piracy as a whole and the impact that it has on the computer using industry.

The most vulnerable victims of software piracy are software businesses or independent programmers who create and distribute commercial software or shareware. We described shareware in another article, but because both commercial software and shareware require payment, they’re the target of pirates who seek to make these kinds of programs free to use.

Depending on their binding legal agreements, licensing typically allows the use of a single program on a single computer. This set up is usually fine for a user who uses software at home on one computer. But in an environment where there are five, ten, twenty or more computers, buying a license for each computer can be down-right costly. So costly that the temptation to pirate a little software here and there can be pretty tempting.

Co-workers are familiar with this temptation and they’re often the ones who “share” purchased software among those who need it. However the same temptation also prompts others to knowingly or unknowingly buy bootleg copies of commercial software or registered shareware.

As tempting as it is, it’s still illegal and the punishments/fines for sharing commercial or registered software is too much for one to bear. In recent news, “Yahoo China loses music piracy case (AP via Yahoo! News) A court has ordered Yahoo Inc.’s China subsidiary to pay $27,000 for aiding music piracy, the company and a music industry group said Tuesday.”1 Additionally, “EU lawmakers approve prison terms, fines for major commercial piracy (International Herald Tribune) EU lawmakers voted Wednesday for legislation that would set prison sentences and fines for large-scale commercial piracy, but exempt patents and copying carried out for personal use.” 2

Fortunately, there are alternatives. Schools can research student versions of commercial software or ask for a school discount. Just because school rates aren’t advertised, it doesn’t mean that they aren’t available. Freeware or open source software (also described in another one of our articles) is another alternative to pirating commercial-ware, as well as shareware. And using older versions of programs could additionally reduce the costs associated with commercial versions.

Up until recently, public opinion held little faith in freeware or open source software – often regarding it as low-quality knock-off’s of better known commercial products. But if you take a good look at what’s being offered at no cost, you may be in for a big surprise. The quality of today’s freeware and open source software created a strong rift among the commercial community and it’s literally driving the competition bananas! So much so, that even some well known software development corporations have joined the cause and built a few freeware open source products of their own!

If you can remember that there are hoards of alternatives to costly commercial software (and you make the effort to get it), you’ll discover that you can keep up with the rest of the computer industry at a significantly cheaper cost than if you attempted to pay your way down the software aisle. Software piracy just isn’t the answer.

If you haven’t heard of smartphones, we’d like to learn where you’ve been hiding all this time. Smartphones have been all over the news and chances are, you do know what they are – only you know them under a different name. Smartphones are mobile phones with computer like capabilities.

What’s that? Aha! Yes, you’ve not only heard of them, you’ve probably seen them as well. Packed with Internet access, email capabilities, address books, and a whole lot more, cell phones have come a long way since their first debut. But be careful not to confuse these newest toys with sandbox devices.

Sandbox devices are tools that come pre-loaded with things like calendars, calculators, and a notepad. What differentiates them from smartphones is that users can add (download and install) additional programs to smartphones and they seemingly become mini portable computers for the people who use them. That – and the ability to edit the content that sits on them – is what makes these phones “smart.”

Some of the more popular brand names include the Blackberry, PalmSource, Nokia, and Windows CE. Yet the craze is extending to even some off-brand company names. Today, it’s hard to find a cell phone that doesn’t offer some sort of “smart” technology because it’s in such a high demand. The convenience of having information at our immediate access is phenomenal – so much so that thousands of programmers have jumped on the opportunity to build unique applications specific to these small machines.

As a result, you can find tons of games, databases, GPA systems, weather reporting programs, and even small encyclopedias on these things – each accessible not at the click of a mouse – but at a few presses of a free thumb. Of course a mini keyboard is available for the text-messaging fan or for the poor fellow who can’t seem to get away from the office. In the latter case, don’t be surprised if you find the entire Microsoft Office suite displayed within a screen no bigger than a matchbook.

Is this a phase? That’s highly doubtful. The market for these devices extends from the highly technical and professional all the way to the pre-teen socialite. The product crosses all demographics and thanks to decreasing costs – it sees no economic boundaries as well. The Wikipedia encyclopedia claims that “Out of 1 billion camera phones to be shipped in 2008, Smartphones, the higher end of the market with full email support, will represent about 10% of the market or about 100 million units.”

But what is it that makes smartphones so appealing? As mentioned, smartphones give us the ability to not only carry our data around with us where ever we go, it also gives us the ability to edit that data any place – any time. In today’s “reality” based generation, we’re always looking for the opportunity to capture and relive a moment. And we want to share that moment with others. At best, smart phones give us the opportunity to express ourselves impromptu with entertaining results.

Attempting to do the same with a bulky desktop computer or laptop is to cumbersome. Even some of the smallest peripherals (digicams, digital cameras, etc.) don’t give us the same opportunities that smart phones do. Being able to carry around a device for communication, creation, recording, and editing simply compliments the need for today’s generation to do more and then do it, faster!

At some point, your needs are going to outgrow the capabilities of your computer. You may find yourself in need of more hard drive space for all those videos and mp3s that you download, for example. Or maybe that cool new programming language you’ve been dying to try requires more memory than what your computer currently has. Unless the activities on your computer are restricted to pure textual output (plain text files), your computer is going to get filled with a lot of “stuff” – stuff that can overfill a PC’s capacity too much for the computer to function well.

The problem is that while upgrading a computer is always an option, technology advances so fast that newer products (such as memory chips, new drives, etc.) aren’t always compatible with the machines that we own. This is a common occurrence when newer pieces of hardware require the programming of a newer operating system. Sure, one could upgrade the operating system to accommodate the demands of a new piece of hardware, but trouble starts when that new operating system requires new hardware in return. If we’re not careful, we could end up replacing almost every hard and soft part of a computer that we own – all in an effort to upgrade! Upgrading in this fashion is not only silly to do so, it’s also costly – more costly than simply buying a new computer.

But once the decision to buy a computer is set in stone, what can be done with the old one? There are alternatives to selling a computer and this article is going to introduce a few of them.

1. Give it to the kids. This is of course, assuming the kids are too young to whine about not having enough SDRAM or less than a 160GB hard drive. Today’s “older” computers are perfectly capable of accommodating the needs of young PC users, and they’re excellent machines for playing educational CDs, small multimedia files, or games downloaded from the Internet. And don’t forget the most important role they play in a child’s homework-clad life: A simple encyclopedia CD on a used computer makes excellent research tool (not to mention a rather fancy calculator!).

2. Donate it to a less-fortunate or less-literate family member. We often joke around the office about the “grandma” who refuses to use a computer until she can afford the “latest” one. Chances are, Grandma isn’t ever going to shell out the bucks to buy the latest computer on the market, nor is she going to know how to use it once she gets it. What Grandma doesn’t realize however is that a used computer is an excellent training tool that she can use to prepare herself for something “better” in the future. We always say, “‘Tis better to screw up something on an old, used machine than to screw up everything on a brand new one!” A couple of errors on an old, used machine are easier to fix because someone is going to have the experience and knowledge to fix it. Errors on a new machine however can be a beast to fix because we’re all knocking at Microsoft’s door looking for answers.

3. Convert the machine into a storage area. As another alternative to selling that machine, we suggest that people disconnect it from the Internet and use it to store personal documents, records, or files. This way, personal data (such as bank statements, store receipts, health records, etc.) is protected from prying viruses or hackers, while the newer machine is used to surf the net.

As you can see, old computers still serve a purpose either for you or for someone else. And although selling an old computer is always an option, there are a number of things that you can do with an old computer. All that’s required is a little “out of the box” thinking and a grateful recipient.

If you’ve spent any lengthy amount of time on the Internet, you’ve probably heard of open source software but might not have fully understood what it is and why it even exists. This article will describe this recent phenomenon and describe some of its benefits for the software using community.

In a nutshell, open source software is software made by everyone – for everyone. The hopes behind its development is that through its open access, it will evolve into something that represents the true desires of computer users. Through a wide network of user involvement, the software in question is enhanced and debugged without costs or administrative politics.

Traditionally, software is developed behind closed doors. A team of professional coders build it but the community at large isn’t part of its conception. It’s costly to produce and as you can probably guess, that cost is passed on to the end user: the consumer. Open source software on the other hand is free. Free to download, free to install, free to use, free to modify, and free to share.

Started over twenty years ago, it’s a phenomenon that is gaining in both popularity and exposure. In its first conception, open source gave birth to the World Wide Web as we know it today. The Internet as a whole is the result of free permission to access the web, use the web, contribute to the web, and share the web with others. But it certainly hasn’t stopped there. In the not too distant past, Netscape converted its once commercial version of its Navigator web browser to open source. And today, open source is venturing into the commercial realm as well.

At first thought, the idea of open source may sound just plain crazy to those who earn a living from software development. But the facts point to a different prediction. Open source software puts companies in a terrific position to re-brand and re-position themselves in a market that they may have not been able to reach before. In the business world, open source is all about image and when consumers witness corporations contributing (instead of selling) to the buying public, they gain big favor in the eyes of their users (plus tremendous opportunities to sell other items).

Inviting the public inside a product’s development builds community and trust. It also sets the platform for increased reliability. Fans of open source programs are adamant about reliable software and highly criticize commercialized versions for being buggy and error-prone. Avid fans even proclaim commercialism is the cause of shoddy software.

Another benefit that open source brings to light is the speed at which its products are developed, enhanced, supported and distributed. This is because the people who regularly contribute to an open source product do so for unmotivated reasons (other than perhaps to feed the ego.) They’re highly talented, they’re available, and they care. Bringing money into any project can almost mean instant death. It can kill motivation, desire, and a true willingness to create a good product. In a commercial setting, participants work for a paycheck rather than for the product. And this is what puts open source projects far ahead of its monetized competition.

As a software user, this means you can contribute to an open source project as well, and help to develop it into a product that reflects your direct preferences. You aren’t “stuck” using open source software the way you would be stuck using an expensive word processor or database. You have the same access to open source software as its programmers have and in essence, you are your own customer!

Perhaps at this point you’re wondering where you can get in on this wonderful opportunity. There are plenty of open source opportunities sprinkled across the Internet and they can be easily found though any search engine. Google “open source project” and you’ll be sure to find more resources than you can shake a stick at!

Have you ever thought about networking your computers at home? If you have a small collection of computers around the house (and a small collection of computer users), you can connect each one of those computers to one another and share data, software, and hardware including a single Internet connection. There are many creative uses for home networking, however it’s an ideal situation when upgrading each computer to the same capability is financially out of the question. On a home network, each computer has access to the equipment of the better machine in the group as if that equipment were their own.

Connecting computers with either an Ethernet cable or a Wireless connection can create a home network. The easiest and cheapest method uses an Ethernet connection, which requires a series of network cards, a cable for each computer, and a router. The network card is similar to the old modems we used in the past to connect to the Internet, however in a home network, it’s used to communicate with every computer that’s connected to it.

You’ll want to first, select the computers that will connect to each other and then install the network cards inside each of them. Then you’ll connect a cable to each computer that will communicate with the server. These cables won’t connect to the server directly. Instead, they’ll connect to the router. To enable Internet access for each computer, this router will need to connect with a modem of the host machine.

Once the hardware is set up correctly (you’ll need to read the instruction manual of your equipment for details), you can then setup the network from Windows on each machine. Within Windows, you can set up a home network similar to the way that you set up an Internet connection. Only this time, you’ll set up a LAN (Local Area Network) connection.

Windows should walk you through setting up a LAN after starting the computer and once complete, you can begin to connect one of your machines to the network. You can do this through Internet Explorer by typing in the address and password required to access the router (the address and password required to access the router will be in the router manual).

Connected to the network, each computer can send files back and forth, open programs on a remote computer, play the sound files and videos located on another computer, and share a single Internet account to browse the web, download files, or chat with someone in an entirely different country. If a single printer is available on only one computer in the network, every connected PC can send documents to it and print them out. Kids will enjoy the ability to play multi-player games and adults will enjoy the ability to blast a single message to everyone at once or maintain a group schedule.

Since we’re describing a home network that will connect to the Internet, you’re strongly advised to install a protective firewall program to thwart Internet viruses, worms, or other damaging spyware code. Firewalls prevent – but they don’t repair. Only anti-virus and anti-spyware programs can reverse damage. So you should install a firewall on the computer that grants access to the computer, and then install an anti-virus and anti-spyware program on each of the remaining computers in the network.

If you have files that shouldn’t be shared (bank statements, credit card information, etc.), you can restrict their access in one of several ways. You can put them in a new folder and then remove the “read” permissions for that folder. Or you can specify who can (and who cannot) access specific files with a password from within Windows Control Panel.

In a previous article, we introduced automating some tasks with MS-DOS batch files. In this article, we’re going to introduce programming and describe how it can be used to control the way your computer works. Normally, computer novices aren’t interested in controlling the computer. New computer users are typically interested in learning more about how the thing works. However they may be surprised to learn that programming increases computer knowledge as a whole and it can help to diminish the fear associated with using a new computer.

Programming a computer is creating a sequence of instructions that enable the computer to do something.1 The people who program computers (called programmers) use a programming language to communicate with a computer. You might have heard of some of these languages in the past such as Visual Basic, C++, or Fortran. There are hundreds of other programming language and neither one is better than the other. Most of them are capable of performing the same tasks and achieving the same goals. A programmer chooses one language by a simple preference.

Each of these languages differ by the way they communicate with a computer however, and the commands that they follow are very specific. Not a single command of one language can be interchanged with the commands or language of another. But all of them can be used to control a computer.

Now it would be impossible to teach you how to program any language in a single article. But we can still introduce you to some of programming’s most basic concepts – starting with the commands we talked about earlier. Commands are the instructions that a computer follows to perform an action. 2 To make them work inside of a program, programmers assign commands to objects like buttons for example.

The commands in a program are pretty useless unless they have some data to act on so programmers either give the programs some data to work with (list of names or numbers for example) or they make the program generate it’s own data. Sometimes, the data comes from an outside source like the Internet or the computer that the program runs on. The data that a program receives is called input and data that the program generates is called output.

Other times, the data is unknown. If the program were working with a simple algebra equation like, “x + 5 = y,” the variables “x” and “y” would be unknown pieces of data. Or if a program were to calculate a date “x” days from now, the variable “x” would be an unknown piece of data until we tell the program what “x” is. In programming, it’s sometimes required to work with unknown pieces of data.

That’s when conditions come in handy. Conditions allow a program to perform an action based on the outcome of a previous command.3 Using this type of instruction, we could instruct a program to do one thing if the “x” variable in our latter example turned out to be 7 days, and then do different thing if the variable turned out to be 3 days.

Commands, data, variables, and conditions help build the most simple programs and there are certainly many more components of any programming language. But when they’re typed into a programming language and compiled to create a an executable file (a file ending with the .exe extension), they turn into a software application.

As we mentioned earlier, you can use a programming language to control your computer. By using simple commands, you can program your computer to perform mathematical tasks, fill out web forms, compose an email message and send it off, or any number of other things. If you’re interested, you may find Visual Basic is one of the most easiest programming languages to learn. Visual Basic is an object-oriented programming language and it automatically codes much of a program the minute a programmer drags a button onto a screen.