Computer Programming Basics – Language You Can Use in Creating Programs

Individuals who want to learn computer programming and the languages that can be used in making programs must first be familiar with the basics. Languages employed in programming should be one of your primary considerations. Prior to creating programs, it is crucial that you know the different types and levels of programming languages. Among these are:

1. Machine Level Language
We all know that computers work in bits and bytes and it reads and understands binary digits 0 and 1. While you are free to make a program in any language you want, it has to be transformed into the languages of Os and 1s before it can be implemented.

It means you need to write a program or to convert your written program into machine language. And this is no easy task. It is nearly impossible to memorize a long sequence of 0s and 1s for each instruction you wish to be executed.

Yes it is true that before the development of high level languages, the ones used in making programming codes are machine level languages. These days, however, this level of language is not used anymore in designing computer programs.

2. Assembly Level Language
This level of programming is only one level higher than low level or machine languages. This is actually the reason why creating a program using such languages isn’t a piece of cake, although, the programming code produced is pretty understandable.

Until now, there are lots of programs for embedded technology that are created in assembly language. The program that’s responsible in transforming assembly level programs into machine level programs is called the assembler.

3. High Level Language
These computer languages are easier for humans to understand. It entails clear statements for making each instruction. Languages that fall in this category have different purposes. There are languages designed for web programming; some for desktop applications, while others can perform both tasks.

One thing to bear in mind though, high level language isn’t easy for the computer to understand. This is where the importance of an interpreter or a compiler comes in. Such programs transform the programming code into a language form the machine can understand.

Aside from these three basic levels of languages, another generation of programming language is now being designed. This is dubbed as the fourth generation language which is designed for those who have very minimal or no programming experience.

Developers of such language want these inexperienced programmers to learn to prepare their own code. This is also the very reason why high level languages like Java already came with these systems. These enable a person to write a programming code without memorizing every function.

Bear in mind that no matter what programming language you want to learn, you need to have proper understanding of the basics. If you’re not familiar with programming language basics, you will not be able to make a program in that specific language. It is advisable that you take up computer courses so you’ll be able to learn more than just the basics of computer programming.

Learning Computer Programming – The Right Approach Which Most Don’t Follow

I regard programming as the most interesting subject on the earth. But, to my dismay, most of the students undergoing some computer programming training course, freshers, and even experienced programmers I come across exhibit programming skills much below my expectations.

I think this happens because while beginning computer programming, students miss the right approach. Programming is a different type of subject – it requires a different approach. Beginning computer programming without really understanding how to learn programming is disastrous. But, surprisingly, most of the computer programming training courses I have seen begin abruptly, without addressing this first. If you search on Google, you will find numerous articles and tutorials for learning programming. But, I am yet to find one which really touches the basics, so that the foundation of the student is properly built.

What is Programming?

In simple terms, programming is teaching somebody how to do a task. Obvious examples are

  • teaching a child how to add some numbers
  • teaching a housewife how to prepare some recipe
  • any teaching under the earth that you can imagine

For programming human beings, we use some language, such as English, French, Hindi. For programming computers, we use some language computers understand. Some examples of computer languages are C, Pascal, Python, Java.

Human beings are very intelligent and hence human languages like English are extremely complex. The same statement might mean different things in different scenario in English. In contrast, computers are the stupidest beings in the world, and so the language used to teach them are quite simple. So, for a human being like you, learning a computer language is really easy and fun. And, once you know one computer language, learning another is as easy as knowing few more words.

Computer Programmer Jobs – Are You Interested in Writing Computer Programming?

Computer programs are responsible for designing the instructions that help computers perform their operations, which involves knowing a series of programming languages. When an engineer needs a program designed, they will give their ideas to a programmer who will take these instructions and encode them into a programming language that a computer can understand, such as java or C++.

These professionals will often repair and modify existing programs in order to improve them, and they may use computer assisted software engineering in order to automate some of the process. Programs used will vary widely depending on the type of information that must be transcribed, and simple projects can be done in a few hours, while others can take years to create.

A computer tester will test a program by making sure that it produces the desired results, and they will keep testing it until the performance of the program is adequate. Computer programmers may also work on developing games and other software that is used for financial planning or entertainment, working with a development team in order to create a finished project.

Computer programmers are typically grouped into one of two categories, which can include applications and systems programming. Applications writers are responsible for writing software programs which will perform a specific task such as word processing or a spreadsheet. Systems programming will create operating systems and networking systems upon which other software will run.

Most of these professionals will work 40 hours a week in a fairly low stress job, and telecommuting is becoming a common practice for programming professionals. Most jobs will require a bachelor’s degree in computer science, although those with sufficient skill may be able to bypass such requirements.

In 2017, these individuals had about 430,000 jobs in America, being employed by almost every industry, although in particular they are utilized by software publishers and financial institutions. Over the next decade, computer jobs should declined slowly as increased automation of coding and outsourcing greatly reduces the cost of software design.

In 2007, the Robert Half Technology Firm found that starting salaries for computer programmers in the middle 50th percentile ranged from $55,250 to $90,250.

Computer Programming Degree Qualifications

One cannot imagine a world without computers or without the aid of technology. Everything from the banking system to the medical world or governmental services relies on computers and the software that runs on these machines. Because many vital areas have to depend on computers to do their tasks, the need for powerful, no wonder that the demand for reliable software programs is on the rise. There are large differences between the software applications that students make during their training years and the programs needed to work for years without stopping, on different hardware configurations and with different people operating them. It is a very sensitive subject, as there are many areas that need very reliable programs.

Only highly trained and experienced software programmers are able to produce very large, complex, yet very secure software applications. No wonder that these programs cost a lot of money, as a highly experienced software programmer is very well paid. However, in order to become a good programmer, one must have a lot of work and training behind him and an associated degree can always help. No one is born a genius and in this ever-changing world of computer technologies, a good programmer must always be in touch with the latest discoveries and programming languages.

The better qualified you are, the higher your chances of getting a well paid job as a computer programmer and this is indeed the dream for every computer science student. That is why having a computer programming degree is very demanded, as it allows you to enjoy the multiple benefits of being a professional and experienced software programmer.

A computer programming degree is a very precious asset in every resume as it allows you to move forward in your software programmer career, ensuring you a better payment. Having a computer programming degree certifies that you are in touch with the latest trends as well as the latest technologies and documentations. Besides the basic skills of code writing, working with compilers and source codes you can get a degree in related topics, such as database programming languages or web based programming languages. If you are searching for a job, such a computer programming degree in your resume can weight a lot. Of course, aside from code writing and other similar jobs you may always be interested in getting a job as a DSP engineer especially since these jobs are getting paid better and better by the year.

Almost any large university offers its student the possibility to acquire a computer programming degree, as they all have computer science courses. Some universities famous for their degrees are Capella University and Kaplan University. Universities such as these offer a large array of computer programming degrees, two of the most important example being the Bachelor of Science in Information Technology and Programming degree and Introduction to Computer Programming Language Certificate. These two degrees in computer programming degree can make the difference of you obtaining a programmer’s job and a very well paid, specialized programmer’s job. Businesses require the skills of computer programmers to help develop new programs and the need for good programmers is very high.

Should K-12 Schools Teach Computer Programming?

It was once popular in K-12 schools to teach computer programming. Languages like Logo, BASIC and HyperTalk used to be taught widely. With all the pressures that young people must deal with today, how can we justify the notion that programming studies be required in our schools? This article will explore this subject in brief.

One great mistake in the field of human endeavor with respect to computers is to overlook how they can be used to think differently about the world we live in. Because most people are instrumental thinkers, it can be more or less taken for granted that any new tool that is invented will be applied to the kinds of work and ideas that already exist. Certainly the computer certainly has spawned lots of new ideas, but its potential has been largely unrealized. In many classrooms computers are used as way to automate drill and repetition, and not as a medium to help the student learn how to learn better.

In the classroom for various reasons (which may relate to money, politics, ideology, and human nature) computer literacy has been ill-defined and paid lip service to. The ability to turn on a computer and operate various appliances like web browsers, instant messaging clients, word processors and the like without the slightest notion of how they actually work is a potentially harmful form of dependency.

Without being given at least a basic understanding of programming our children will not understand what a computer actually is and how it works, and they will not be truly computer literate. This can result in their subjugation to those who use the computer to run the public and private infrastructure. This is no different than other forms of exploitation within other realm of knowledge. As a simple example, a driver who understands how a car works benefits greatly whether driving on the road, broken down at the roadside, or at the counter at the repair shop.

Possessing a true computer literacy would not be of much value in an industrial age, but we are in an information age and so we are surrounded by computers. They are in our workplaces, our cars, our homes, our appliances and our pockets. We rely on these devices and we trust them to work and to give us good information.

As our children grow up they will need to make wise decisions about how computers are used in critical matters of life. As a real and current example, let’s consider computerized voting machines. There is controversy about whether the convenience of such systems is worth the cost of not being able to able to verify the integrity of their operation. An understanding of how computers really work is crucial to knowing how to think about such things. The people running our own legal and government institutions have not demonstrated a sufficient grasp of the issues, but the next generation could be better prepared if we decide it is important.

Is computer programming helpful for enhancing other kinds of thinking in addition to making people wise about the role that computers play in civil society? Let’s cover a few ways that programming is believed to be helpful to thinking and learning.

Organizational – Programming requires that things be organized. Values, functions, and presentation all must be put in their proper place.

Procedural – Writing instructions for a computer forces the programmer to think and understand procedure. This involves understanding and planning.

Abstract – Once the procedural skills are in place, a more advanced programmer will learn to think abstractly. This involves deciding what the program does (what it really means) and dividing the procedural parts up into general ideas.

Mathematical – Not the simple act of computation (3+4=7) or even algebraic thinking, but a real experience of how numbers can be important in the relationships between ideas.

Critical – To create a computer program it is important to weigh one idea against another, and the act of debugging a computer program requires one to think deductively.

It is important to realize that these ways of thinking can be taught without the use of computers. They can be taught in the course of reading and critical writing, debate, scientific discourse, history, politics, musical studies, and art (does this sound like your school?). Computer programming can enhance the benefits of these other activities.

In summary, given the very pervasive and growing impact of computers in our world we would be wrong not to provide our children with a profound understanding of computers and how their lives will be impacted. What’s more, the other ways in which programming improves thinking are useful and enriching in many wide-ranging ways.

Computer Programming Explained

Computer programming is the process of designing and writing computer programs. That is pretty straightforward, isn’t it?

At its most basic, you can think of programming as giving instructions to a computer to do something you want it to do – which might sound very similar to how you operate your desktop computer. Simplistically, the only difference between what you are doing now as a computer user and what you might do as a computer programmer is that the instructions are saved somewhere so they can be used over and over. As a matter of fact, if you have used macros in a software program like a word processor or spreadsheet (or countless other applications that are macro enabled) you have done computer programming of a sort.

Programs can be as simple as a set of instructions stored in a text file for doing some mundane task, like making backups of all the computer files in a folder, or as complex as something like a word processor, or the operating system that your computer uses which can require millions of lines of code. We need to understand that computers, which are generally just pieces of metal, plastic, silicon, and other materials stuck together in a way that allows them to do some amazing things that seem like thinking, can’t actually think at all. But what they can do extremely well is follow instructions. So what are these instructions, anyway? At the level that a computer understands, these have to be very precise, very detailed, and very complete step-by-step directions, and they must be in a form that the processor and other parts of the computer can understand – and that is as little electrical pulses which humans aren’t capable of emitting (at least not at this time).

In a way, you can think of a computer program like a recipe: a set of instructions that can be followed to produce a result. In the case of a recipe, the instructions are used by a human and can therefore be a bit descriptive, leaving out some of the details. For example, if a recipe instruction is to “pour the mixture into a blender and whip until frothy”, it is assuming that the human knows what a blender is, and where it is, and how to set it up, and how to use it – and also what pour means, and what frothy means, and so on. The human chef is expected to fill in the gaps. A computer can’t do this – it has no idea what anything means, except for a few very simple instructions. So the way we do this is to give the human a way to write instructions that can then be translated into something the computer can understand. The “way to write instructions” is called a programming language.

What a programming language allows us to do is to write instructions for the computer in a more or less human readable form that can then be translated into something the computer can work with. The human readable instructions are typically called (you guessed it) – code! Each line of human readable code translates into thousands of detailed computer instructions. A special program (or set of programs) is used to do this translation – each computer language has its own translators, which are called compilers or interpreters. Once the translation is done the result is stored in some form such as a file or set of files (or in computer memory in some cases), and each time the software is run, the computer will follow the instructions and (hopefully) the program will do whatever it is that it is supposed to be doing.

Although it is often imagined that you have to be a genius to be able to write useful software, almost anyone who is computer savvy and has an interest in becoming a power user can learn to program. Most software is written by average people with specialized knowledge and skills. Mastering computer programming can be a lifelong pursuit, but gathering enough knowledge and skill to be able to do useful things isn’t out of reach for anyone who knows how to use a computer and is willing to dedicate a little time… or maybe a lot of time, but still – it isn’t out of reach.

Learn Computer Programming – You Can Do It!

Almost anyone can learn to program. There are only a few requirements (like having access to a computer), and you don’t have to be a genius. (Well… it helps if you are a genius, I suppose, but you don’t HAVE to be one).

This article addresses some of the motivations you might have for wanting to learn to program computers, looks at some things to consider, and discusses a few different ways to start learning now!

What is it you want to do?

There are a lot of reasons for wanting to learn computer programming, and what you want to do with it can help guide you in choosing your path in learning. Perhaps you are interested in programming as a career. In that case you will want to make sure you are learning things that will make you attractive to those who hire programmers. On the other hand, you might just be looking for a fascinating hobby, and in that case you can let be a bit more casual about what you learn and focus only on things that interest you.

Maybe you need to automate various applications you use at work. For example, perhaps you want to automate a word processor to do mailing labels or a spreadsheet to do customized financial forecasting, or maybe you want to write computer games, or have a cool web site, or… the reasons are endless, just as the things you can do with a computer are.

The languages you learn will be influenced by these things, as well as the approach you will want to take as you begin to learn to do computer programming.

What resources do you have available?

Time, money, people who can help guide you, computers, books, programming clubs, classes, programming forums… these are all resources that will be handy as you are learning to program.

If you have a lot of time and money, a computer, and access to learning opportunities like college classes and developer group meetings, you will probably be able to learn at a rapid pace. If you can only spend an hour or so each day, and you don’t have your own computer, and you can only buy one or two books, you will have to adjust your expectations a bit. However, either way, or somewhere in-between, you will be able to learn to program.

What is the level of your motivation?

This is a very important consideration. This isn’t going to be easy. You are going to need to keep going even when things seem impossible and you can’t find the answers you need. It takes a fair amount of brain power, will power, and the ability to work things out. You will be well served if you can muster a “stick-it-out” kind of attitude.

One of the attractions of computer programming is that there is a lot of problem solving, and you will have to solve a lot of them both while you are learning as well as when you are using your skills to do useful things. It takes a lot of interest and dedication to stick with it long enough to get somewhere – if this still sounds good to you, you will probably do okay.

So, how to get started?

There are a lot of ways to go about getting started. You can get started today, regardless of how you are going to approach this over the long run. Here are a few tips on getting started quickly:

* Learn in baby steps – Start with something very easy, and add to it. There is no advantage to jumping in with both feet unless you have unlimited time and resources.

* The quickest way to start might be to use a language that comes with software you already have. For example, you can do a great deal of programming in Microsoft Word using Visual Basic for Applications. There are numerous commercial software applications that include a way to enhance them using programming or scripting languages.

* Here is another idea for getting started quickly: There are simple languages available with almost every operating system (Windows, Linux, Mac) for automating your repetitive tasks. For example, in Windows you can use VBScript. Again – a simple internet search will get you lots of information.

* Pick a more full featured language that is available free – To get started with the least expense and as quickly as possible, one approach is to download a programming environment for free on the internet. For example, you can download the Ruby language and everything you need to work with it for free. Another example is the Microsoft .NET Express languages (VB.NET or C# are good choices) – again, you can download everything you need for free from Microsoft. A little internet search on either “Ruby Language” or “Microsoft .NET Express” will get you all the info you need.

* Use the internet – You already know this or you wouldn’t be reading this article, but the internet is full of resources to help you learn to program. That makes sense, since the internet has been created and programmed by programmers. A lot of programmers are willing to share their knowledge through free tutorials, forums, tips sites, and articles. You will find links to a lot of good resources just by doing a simple search. One thing is certain, there is no shortage of information.

* Work with what you have, or what you can easily get – To get started quickly, my advice is to do something right away and keep doing something every day. Soon you will be better able to judge what areas are most interesting to you and best fit your needs, as well as where to get the information you need to keep progressing.

* Buy used books – Many of the book sellers on the internet now offer used books through a network of thousands of book re-sellers and private individuals. You can save a lot of money this way.

* Once you get started, write simple programs that help you automate something that is wasting your time. For example, if at the end of every day you make a backup of the files you worked on during the day by copying the files “by hand” to a cd, you could write a program that automatically searches your working folders and copies the files for you – without you having to do anything. The extra time you get from each little helper program you write is time you can use to learn more about programming.

* Find a computer programmers “user group” somewhere near you. Almost all larger cities have such groups that meet on a regular basis – usually monthly. Many of these meetings are free, and usually they provide presentations on “how-to” do various programming tasks. They often also have study groups and beginners sessions. Not all languages are represented in all cites – but anything is better than nothing, so it can be worthwhile to attend any meeting of this sort that you can find that is within a reasonable distance.

* Take a beginners course at a local community college or extended studies program. These classes are usually offered at a very reasonable cost, and will help you get started. I have found a number of these classes available on line – and if you are eligible for entry, it can be very convenient to take a course this way.

It’s time to get started

Programming can be fun, challenging, useful, and profitable. Not everyone has the nature or interest to become a full-time programmer, but almost anyone who can use a computer can learn to do something useful or fun with computer programming. If you think it is something you might enjoy, then I encourage you to give it a try and see what it’s all about. It is going to take time and dedication to become proficient, but it all starts with a single step. So now is the time.

Why Should You Learn Computer Programming?

Computer programming isn’t just about building the next cool app, or about creating a killer web site – it’s about planning, discipline, and problem solving, as well as a good introduction to the wonderful world of logic.

Even for people who are never destined to actually make a career out of telling a computer what to do, there are some great advantages to be had by acquiring the skills needed to actually do it.

Before looking at the three key skills that are common to all forms of programming – planning, problem solving and logic – it’s worth recounting a little anecdote about the misconception that programmers have to be engineers, or at the very least, good at mathematics.

There was a time when computers were the size of a house, and communicated with the programmers using little bits of cards and ticker tape. If they went wrong, someone had to repair the valves (yes, valves), and it saved a lot of time if that person was also the programmer.

Fast forward a few years, and applicants for Universities across the UK wanting to study Computer Science wondered what kinds of subjects they might need to study in order to be accepted onto the course.

Medical students needed a grounding in human biology, those wanting to study astrophysics had better know their mathematics and have at least a basic idea of the more advanced laws of physics.

For computer science students, it was easier. No special knowledge is really required.

Learning Planning through Computer Programming

It is said that the best way to appreciate subject matter is to teach it to someone else. This being the case, the best way to appreciate how to do something well is to break it down into successively smaller steps until the whole process is laid bare.

With knowledge of all the components, estimates of time and cost can then be applied, as well as the various checks and balances that will prove that what has been done has been done correctly, and is the correct thing to have done in the first place.

This is as true of building a block of flats as it is a computer program.

Computer Programming as an Introduction to Problem Solving

Some things just don’t seem possible at first glance. No doubt the idea that every page on the internet could be indexed, and then searched in real time was considered to be a bit of a pipe dream by some.

However, knowing that a computer is just a thing that can interpret commands leads the programmer to be able to find a way to solve just about any problem. And if there aren’t any obvious solutions, the brain has a way of being able to think laterally and at least find a workaround.

The basis of this is known as logic.

Basic Logic in Computer Programming

This is really the only “sciency” bit of programming left. Logic essentially allows you to hand the decision making process over to the computer, and force it to perform different actions depending on the various conditions it encounters.

There are also logic constructs that let the programmer repeat actions, as well as choose actions, and ways that various lists of instructions can be re-used for different tasks, depending on how they are invoked.

Seeing the entire domain as a set of interacting objects in this way is a fundamental transferable skill that computer programming teaches.

In fact, all of these skills are transferable. Computer programming is one big set of transferable skills; and that’s probably the best reason there is to learn Computer Programming.

Computer Programming: Chapter: 02 – Know the Basics

In the previous article Computer Programming: Chapter: 01 – Introduction, I spoke about what is programming and ended it by saying that computers do not understand English or for that matter any language we humans speak. I said that computers only understand the language of 0’s and 1’s.

If you have used a computer for any purpose till now, you will not agree with me, since you have been using it mostly in English or any other language that you know. You would have watched movies, listened to songs, created documents, sent e-mails, browsed lot of sites and even you would have read my articles in one of the human readable languages. Also if you have written a program or even seen somebody doing it, you might have noticed that even they have not been using the language of 0’s and 1’s.

Even if you agree that there are people who knows this language of 0’s and 1’s, looking at the second important point I said that “The instructions should be PRECISE”, you might be wondering that it will be next to impossible to even write a simple computer program, if what I am saying is true.

Today, to use a computer you need not know how a computer works or what language does it speak? All you need to do is simply turn on a computer and when it is ready use the mouse and keyboard to point at some little graphical object on the screen, click a button, Swipe a finger or two in case of a touch screen device to get a computer to do what is required of it. An example would be what you need to read this article.

The reason computers are so easy to use today because of the hard work of some programmers who have programmed for it to behave in a certain way. And, here we are not trying to use a computer, but to learn how to program a computer. But the computer doesn’t know anything except 0’s & 1’s called binary language, and remember not all computers speak the same dialect. That is the reason a program on a desktop computer does not run on an iMac and vice versa.

Let me explain with an example of two blind people, where in the first person (let us call him as Person-A) knows only English and the other person (let us call him as Person-B) knows only Sanskrit. Person-A wants Person-B to draw a sketch? Now, how do you expect these two to communicate with each other, isn’t it difficult. Person-A can’t even show in writing since the Person-B being blind. The only way of communicating is through speech in a known language, and by giving precise instructions.

Now, the only way they both can communicate with each other is by having an interpreter. Now when the Person-A speaks in English, the interpreter then translates it into Sanskrit and repeats it to the Person-B. When the Person-B says something in Sanskrit, the interpreter again translates and repeats the sentence in English to the Person-A. Now with the help of interpreter, both are able to communicate very easily.

By using the interpreter solves our language problem. We still have another problem at our hand. That is Person-A is asking Person-B who is blind to draw a sketch. Though this is not something that is impossible, but it is difficult, unless you know how to instruct. Even if Person-A is able to now communicate, he should know the steps in a proper order and very precisely, otherwise he will get Person-B to draw something, but not what he would be expecting. Person-A should know every minute detail very precisely, since the Person-B is blind, he will just follow whatever Person-A instructs. If the Person-A asks him to draw a line of 1.23 cm, from a particular point with a certain degree, Person-B without even questioning anything just does that without even thinking about the outcome. If Person-A knows how to instruct precisely and exactly in the way it is required, then Person-B will draw what he wants in the way he wants.

If we get back to computer programs, and use the same approach as in the above example everything becomes very simple and easy. Replace Person-A with yourself and Person-B with the computer. Now the first thing you need is an interpreter and the second is you should know what you want and the precise steps that is required, so that you can get the work done.

To Read or Write a Binary code or program is unfortunately very difficult for humans. So we have to use some kind of program that can translate something we instruct in English into Binary language and vice versa. These programs which can translate our instructions in English into Binary code are surprisingly called as an interpreter.

Do these interpreters really understand English?

This will be the question that might be running in your mind now. The answer is Yes & No.

Yes, since we use English words programming languages, and No since computers are still not up to that level so as to understand what we speak be it in any language. This type of language is known as high level languages. By using the term languages, I am not referring to various languages such as English, French, etc., but I am referring to the high level languages that we use to write programs, which are then interpreted and converted into binary code so as to make the computers understand it. High Level languages are covered in more detail in the coming sections.

What Are the Benefits of Pursuing Computer Programming As a Career?

I would like to share with you some of the benefits of pursuing computer programming as a career, but before we explore these benefits let us look at a quick definition of computer programming.

There are indeed many definitions of computer programming, but to keep things as simple and relevant as possible I would define computer programming as that skill which empowers us to communicate with computers in a language which they understand in order that they can perform specific tasks for us.

Everyday examples of these tasks would be the running of a spreadsheet program, a word processor or an email program. For example a spreadsheet program has to be loaded and activated by a computer before we can use it. When it is loaded and activated the computer is said to be “running” the program.

Hence a computer programmer’s job would be to write the instructions which comprise the spreadsheet program in a language understood by the computer. This set of written instructions is commonly referred to as a software application or computer program.

Because computers are a lot smaller cheaper and more numerous than that which obtained a couple of decades ago, we find that there are many more potential clients who need various applications.

More importantly with the widespread availability of the internet a lot of these computers are connected together. This is why a career as a computer programmer is definitely worthy of your consideration.

However having said all this we must remember that computer programming is not for everyone, but if you do fit the bill then a whole new world awaits you and you will find yourself limited mainly by your own creativity and imagination.

Now here are some of the benefits of pursuing computer programming as a career.

1. As a computer programmer there is generally a strong demand and hence a higher likelihood of either getting a job or remaining in employment if you already have one.

2. While working in this space you will generally find that flexible working hours is an option.

3. There is in many cases the potential ability to work almost anywhere rather than having to commute.

4. The computer programming space is generally a results driven environment rather than being politically driven – although we can never completely escape politics because we are human.

5. It can be quite lucrative as a career to pursue.

6. There will frequently be the opportunity to work in a team with other like-minded individuals.

7. You will have the freedom to work on your own for extended periods of time when necessary or desired.

8. You will have the mobility to move around various industries depending on your preference and also where you want to live.

We have only scratched the surface here because there are many more benefits to explore. Actually I will write a few more articles to cover some of these points in greater detail so please watch out for them!