9 things you should consider before embarking on a PhD

Motivasi PhD

His research interests include studying the electrical and optical properties of heterogeneous nanostructures, including semiconductor, photonic and plasmonic materials. His broader interests include politics and public policy, especially with regard to saving scientific research funding and promoting a more scientifically informed public. He would like to help engage the public in a closer examination of scientific claims made by corporations, politicians and the media.

Here, he writes about what he has learned since starting his PhD program – including things he wish he knew beforehand.

If you are planning to apply for a PhD program, you’re probably getting advice from dozens of students, professors, administrators your parents and the Internet. Sometimes it’s hard to know which advice to focus on and what will make the biggest difference in the long-run. So before you go back to daydreaming about the day you accept that Nobel Prize, here are nine things you should give serious thought to. One or more of these tips may save you from anguish and help you make better decisions as you embark on that path to a PhD.

1. Actively seek out information about PhD programs
Depending on your undergraduate institution, there may be more or less support to guide you in selecting a PhD program – but there is generally much less than when you applied to college.

On the website of my physics department, I found a page written by one of my professors, which listed graduate school options in physics and engineering along with resources to consult. As far as I know, my career center did not send out much information about PhD programs. Only after applying to programs did I find out that my undergraduate website had a link providing general information applicable to most PhD programs. This is the kind of information that is available all over the Internet.

So don’t wait for your career center or department to lay out a plan for you. Actively seek it out from your career center counselors, your professors, the Internet — and especially from alumni from your department who are in or graduated from your desired PhD program. First-hand experiences will almost always trump the knowledge you get second-hand.

2. A PhD program is not simply a continuation of your undergraduate program.
Many students don’t internalize this idea until they have jumped head-first into a PhD program. The goal is not to complete an assigned set of courses as in an undergraduate program, but to develop significant and original research in your area of expertise. You will have required courses to take, especially if you do not have a master’s degree yet, but these are designed merely to compliment your research and provide a broad and deep knowledge base to support you in your research endeavors.

At the end of your PhD program, you will be judged on your research, not on how well you did in your courses. Grades are not critical as long as you maintain the minimum GPA requirement, and you should not spend too much time on courses at the expense of research projects. Graduate courses tend to be designed to allow you to take away what you will find useful to your research more than to drill a rigid set of facts and techniques into your brain.

3. Take a break between your undergraduate education and a PhD program.
You are beginning your senior year of college, and your classmates are asking you if you are applying to graduate school. You think to yourself, “Well, I like studying this topic and the associated research, and I am going to need a PhD if I want to be a professor or do independent research, so I might as well get it done as soon as possible.” But are you certain about the type of research you want to do? Do you know where you want to live for the next five years? Are you prepared to stay in an academic environment for nine years straight?

Many people burn out or end up trudging through their PhD program without a thought about what lies outside of or beyond it. A break of a year or two or even more may be necessary to gain perspective. If all you know is an academic environment, how can you compare it to anything else? Many people take a job for five or more years before going back to get their PhD.

It is true though that the longer you stay out of school, the harder it is to go back to an academic environment with lower pay and a lack of set work hours. A one-year break will give you six months or so after graduation before PhD applications are due. A two-year gap might be ideal to provide time to identify your priorities in life and explore different areas of research without having school work or a thesis competing for your attention.

Getting research experience outside of a degree program can help focus your interests and give you a leg up on the competition when you finally decide to apply. It can also help you determine whether you will enjoy full-time research or if you might prefer an alternative career path that still incorporates science, for example, in policy, consulting or business — or a hybrid research job that combines scientific and non-scientific skills.

I will be forever grateful that I chose to do research in a non-academic environment for a year between my undergraduate and PhD programs. It gave me the chance to get a feel for doing nothing but research for a full year. Working at the Johns Hopkins University Applied Physics Laboratory in the Space Division, I was the manager of an optics lab, performing spectroscopic experiments on rocks and minerals placed in a vacuum chamber. While my boss determined the overall experimental design, I was able to make my own suggestions for experiments and use my own discretion in how to perform them. I presented this research at two national conferences as well — a first for me. I was also able to learn about other research being performed there, determine which projects excited me the most, and thus narrow down my criteria for a PhD program.

4. Your current area of study does not dictate what you have to study in graduate school.
You might be studying the function and regulation of membrane proteins or doing a computational analysis of the conductivity of different battery designs, but that doesn’t mean your PhD project must revolve around similar projects. The transition between college or another research job to a PhD program is one of the main transitions in your life when it is perfectly acceptable to completely change research areas.

If you are doing computation, you may want to switch to lab-based work or vice versa. If you are working in biology but have always had an interest in photonics research, now is the time to try it out. You may find that you love the alternative research and devote your PhD to it, you might hate it and fall back on your previous area of study — or you may even discover a unique topic that incorporates both subjects.

One of the best aspects of the PhD program is that you can make the research your own. Remember, the answer to the question “Why are you doing this research?” should not be “Well, because it’s what I’ve been working on for the past few years already.”While my undergraduate research was in atomic physics, I easily transitioned into applied physics and materials science for my PhD program and was able to apply much of what I learned as an undergraduate to my current research. If you are moving from the sciences to a non-scientific field such as social sciences or humanities, this advice can still apply, though the transition is a bit more difficult and more of a permanent commitment.

5. Make sure the PhD program has a variety of research options, and learn about as many research groups as possible in your first year.
Even if you believe you are committed to one research area, you may find that five years of such work is not quite what you expected. As such, you should find a PhD program where the professors are not all working in the same narrowly focused research area. Make sure there are at least three professors working on an array of topics you could imagine yourself working on.

In many graduate programs, you are supposed to pick a research advisor before even starting. But such arrangements often do not work out, and you may be seeking a new advisor before you know it. That’s why many programs give students one or two semesters to explore different research areas before choosing a permanent research advisor.

In your first year, you should explore the research of a diverse set of groups. After touring their labs, talking to the students, or sitting in on group meetings, you may find that this group is the right one for you.

In addition, consider the importance of who your research advisor will be. This will be the person you interact with regularly for five straight years and who will have a crucial influence on your research. Do you like their advising style? Does their personality mesh with yours? Can you get along? Of course, the research your advisor works on is critical, but if you have large disagreements at every meeting or do not get helpful advice on how to proceed with your research, you may not be able to succeed. At the very least, you must be able to handle your advisor’s management of the lab and advising style if you are going to be productive in your work.

The Harvard program I enrolled in has professors working on research spanning from nanophotonics to energy materials and biophysics, covering my wide range of interests. By spending time in labs and offices informally chatting with graduate students, I found an advisor whose personality and research interests meshed very well with me. Their genuine enthusiasm for this advisor and their excitement when talking about their research was the best input I could have received.

6. Location is more important than you think — but name recognition is not.
At the Asgard Irish Pub in Cambridge, Massachusetts, Andy Greenspon talks with fellow graduate students from Harvard and MIT at an Ask for Evidence workshop organized by Sense About Science. He grew up near Boston and chose to go to graduate school there. (Photo by Alison Bert)At the Asgard Irish Pub in Cambridge, Massachusetts, Andy Greenspon talks with fellow graduate students from Harvard and MIT at an Ask for Evidence workshop organized by Sense About Science. He grew up near Boston and chose to go to graduate school there. (Photo by Alison Bert)The first consideration in choosing a PhD program should be, “Is there research at this university that I am passionate about?” After all, you will have to study this topic in detail for four or more years. But when considering the location of a university, your first thought should not be, “I’m going to be in the lab all the time, so what does it matter if I’m by the beach, in a city, or in the middle of nowhere.”

Contrary to popular belief, you will have a life outside of the lab, and you will have to be able to live with it for four or more years. Unlike when you were an undergraduate, your social and extracurricular life will revolve less around the university community, so the environment of the surrounding area is important. Do you need a city atmosphere to be productive? Or is your ideal location surrounded by forests and mountains or by a beach? Is being close to your family important? Imagine what it will be like living in the area during the times you are not doing research; consider what activities will you do and how often will you want to visit family.

While many of the PhD programs that accepted me had research that truly excited me, the only place I could envision living for five or more years was Boston, as the city I grew up near and whose environment and culture I love, and to be close to my family.

While location is more important than you think, the reputation and prestige of the university is not. In graduate school, the reputation of the individual department you are joining — and sometimes even the specific research group you work in — are more important. There, you will develop research collaborations and professional connections that will be crucial during your program and beyond. When searching for a job after graduation, other scientists will look at your specific department, the people you have worked with and the research you have done.

7. Those time management skills you developed in college? Develop them further.
After surviving college, you may think you have mastered the ability to squeeze in your coursework, extracurricular activities and even some sleep. In a PhD program, time management reaches a whole new level. You will not only have lectures to attend and homework to do. You will have to make time for your research, which will include spending extended periods of time in the lab, analyzing data, and scheduling time with other students to collaborate on research.

Also, you will most likely have to teach for a number of semesters, and you will want to attend any seminar that may be related to your research or that just peaks your interest. To top it all off, you will still want to do many of those extracurricular activities you did as an undergraduate. While in the abstract, it may seem simple enough to put this all into your calendar and stay organized, you will find quickly enough that the one hour you scheduled for a task might take two or three hours, putting you behind on everything else for the rest of the day or forcing you to cut other planned events. Be prepared for schedules to go awry, and be willing to sacrifice certain activities. For some, this might be sleep; for others, it might be an extracurricular activity or a few seminars they were hoping to attend. In short, don’t panic when things don’t go according to plan; anticipate possible delays and be ready to adapt.

8. Expect to learn research skills on the fly – or take advantage of the training your department or career center offers.
This may be the first time you will have to write fellowship or grant proposals, write scientific papers, attend conferences, present your research to others, or even peer-review scientific manuscripts. From my experience, very few college students or even PhD students receive formal training on how to perform any of these tasks. Usually people follow by example. But this is not always easy and can be quite aggravating sometimes. So seek out talks or interactive programs offered by your department or career center. The effort will be well worth it when you realize you’ve become quite adept at quickly and clearly explaining your research to others and at outlining scientific papers and grant proposals.

Alternatively, ask a more experienced graduate student or your advisor for advice on these topics. In addition, be prepared for a learning curve when learning all the procedures and processes of the group you end up working in. There may be many new protocols to master, whether they involve synthesizing chemicals, growing bacterial cells, or aligning mirrors on an optical table. In addition, the group may use programming languages or data analysis software you are unfamiliar with.

Don’t get discouraged but plan to spend extra effort getting used to these procedures and systems. After working with them regularly, they will soon become second nature. When I first started my job at Johns Hopkins, I felt overwhelmed by all the intricacies of the experiment and definitely made a few mistakes, including breaking a number of optical elements. But by the end of my year there, I had written an updated protocol manual for the modifications I had made to the experimental procedures and was the “master” passing on my knowledge to the next person taking the job.

9. There are no real breaks.
In a stereotypical “9-to-5” job, when the workday is over or the weekend arrives, you can generally forget about your work. And a vacation provides an even longer respite. But in a PhD program, your schedule becomes “whenever you find time to get your work done.” You might be in the lab during regular work hours or you might be working until 10 p.m. or later to finish an experiment. And the only time you might have available to analyze data might be at 1 a.m. Expect to work during part of the weekend, too. Graduate students do go on vacations but might still have to do some data analysis or a literature search while away.

As a PhD student, it might be hard to stop thinking about the next step in an experiment or that data sitting on your computer or that paper you were meaning to start. While I imagine some students can bifurcate their mind between graduate school life and everything else, that’s quite hard for many of us to do. No matter what, my research lies somewhere in the back of my head. In short, your schedule is much more flexible as a PhD student, but as a result, you never truly take a break from your work.

While this may seem like a downer, remember that you should have passion for the research you work on (most of the time), so you should be excited to think up new experiments or different ways to consider that data you have collected. Even when I’m lying in bed about to fall asleep, I am sometimes ruminating about aspects of my experiment I could modify or what information I could do a literature search on to gain new insights. A PhD program is quite the commitment and rarely lives up to expectations – but it is well worth the time and effort you will spend for something that truly excites you.

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Notes On The PhD Degree

Last week at the department colloquium coffee hour, several students engaged the faculty in a discussion about our Ph.D. program. It became clear that many of the students did not understand the basics; they were surprised at some of the questions and confused by some of the answers.

These notes provide basic information about the purpose of a Ph.D. program in an attempt to help students decide whether to pursue a Ph.D. degree.

The Basics

A Doctor of Philosophy degree, abbreviated Ph.D., is the highest academic degree anyone can earn. Because earning a Ph.D. requires extended study and intense intellectual effort, less than one percent of the population attains the degree. Society shows respect for a person who holds a Ph.D. by addressing them with the title “Doctor”.

To earn a Ph.D., one must accomplish two things. First, one must master a specific subject completely. Second, one must extend the body of knowledge about that subject.

Mastering A Subject

To master a subject, a student searches the published literature to find and read everything that has been written about the subject. In scientific disciplines, a student begins by studying general reference works such as text books. Eventually, the student must also search scholarly journals, the publications that scientists use to exchange information and record reports of their scientific investigations.
Each university establishes general guidelines that a student must follow to earn a Ph.D. degree, and each college or department within a university sets specific standards by which it measures mastery of a subject. Usually, in preparing for Ph.D. work in a given field, a student must earn both a Bachelor’s and Master’s degree (or their equivalent) in that field or in a closely related field. To demonstrate complete mastery of the subject, a student may be required to complete additional graduate-level courses, maintain a high grade average, or take a battery of special examinations. In many institutions, students must do all three.

Because examinations given as part of a Ph.D. curriculum assess expert knowledge, they are created and evaluated by a committee of experts, each of whom holds a Ph.D. degree.

Extending Knowledge

The essence of a Ph.D., the aspect that distinguishes Ph.D. study from other academic work, can be summarized in a single word: research. To extend knowledge, one must explore, investigate, and contemplate. The scientific community uses the term research to capture the idea.
In scientific disciplines, research often implies experimentation, but research is more than mere experiments — it means interpretation and deep understanding. For Computer Scientists, research means searching to uncover the principles that underlie digital computation and communication. A researcher must discover new techniques that aid in building or using computational mechanisms. Researchers look for new abstractions, new approaches, new algorithms, new principles, or new mechanisms.

To complete a Ph.D., each student must present results from their research to the faculty in a lengthy, formal document called a dissertation (more popularly referred to as a thesis). The student must then submit their dissertation to the faculty and defend their work in an oral examination.

Relationship To Products

In some cases, the results of scientific research can be used to develop new products or improve those that exist. However, scientists do not use commercial success or potential commercial profits as a measure of their work; they conduct investigations to further human understanding and the body of knowledge humans have compiled. Often, the commercial benefits of scientific research are much greater in the long-term than in the short-term.
Research Activities

Computer Science research can include such diverse activities as designing and building new computer systems, proving mathematical theorems, writing computer software, measuring the performance of a computer system, using analytical tools to assess a design, or studying the errors programmers make as they build a large software system. Because a researcher chooses the activities appropriate to answer each question that arises in a research investigation, and because new questions arise as an investigation proceeds, research activities vary from project to project and over time in a single project. A researcher must be prepared to use a variety of approaches and tools.
A Few Questions To Ask

Many of you are trying to decide whether to pursue a Ph.D. degree. Here are a few questions you might ask yourself.
1. Do you want a research career?

Before enrolling in a Ph.D. program, you should carefully consider your long-term goals. Because earning a Ph.D. is training for research, you should ask yourself whether a research position is your long-term goal. If it is, a Ph.D. degree is the standard path to your chosen career (a few people have managed to obtain a research position without a Ph.D., but they are the exception, not the rule). If, however, you want a non-research career, a Ph.D. is definitely not for you.
2. Do you want an academic position?

A Ph.D. is the de facto “union card” for an academic position. Although it is possible to obtain an academic position without a Ph.D., the chances are low. Major universities (and most colleges) require each member of their faculty to hold a Ph.D. and to engage in research activities. Why? To insure that the faculty have sufficient expertise to teach advanced courses and to force faculty to remain current in their chosen field. The U.S. State Department diplomatic protocol ranks the title “professor” higher than the title “doctor”. It does so in recognition of academic requirements: most professors hold a Ph.D., but not all people who hold a Ph.D. degree are professors.
3. Do you have what it takes?

It is difficult for an individual to assess their own capabilities. The following guidelines and questions may be of help.
Intelligence:
In your college and graduate courses, were you closer to the top of your class or the bottom? How well did you do on the GRE or other standardized tests?
Time:
Are you prepared to tackle a project larger than any you have undertaken before? You must commit to multiple years of hard work. Are you willing to reduce or forego other activities?
Creativity:
Research discoveries often arise when one looks at old facts in a new way. Do you shine when solving problems? Do you like “brain teasers” and similar puzzles? Are you good at solving them? In school, did you find advanced mathematics enjoyable or difficult?
Intense curiosity:
Have you always been compelled to understand the world around you and to find out how things work? A natural curiosity makes research easier. Did you fulfill minimum requirements or explore further on your own?
Adaptability:
Most students are unprepared for Ph.D. study. They find it unexpectedly different than course work. Suddenly thrust into a world in which no one knows the answers, students sometimes flounder. Can you adapt to new ways of thinking? Can you tolerate searching for answers even when no one knows the precise questions?
Self-motivation:
By the time a student finishes an undergraduate education, they have become accustomed to receiving grades for each course each semester. In a Ph.D. program, work is not divided neatly into separate courses, professors do not partition tasks into little assignments, and the student does not receive a grade for each small step. Are you self-motivated enough to keep working toward a goal without day-to-day encouragement?
Competitiveness:
If you choose to enroll in a Ph.D. program, you will compete with others at the top. More important, once you graduate, your peers will include some of the brightest people in the world. You will be measured and judged in comparison to them. Are you willing to compete at the Ph.D. level?
Maturity:
Compared to coursework, which is carefully planned by a teacher, Ph.D. study has less structure. You will have more freedom to set your own goals, determine your daily schedule, and follow interesting ideas. Are you prepared to accept the responsibility that accompanies the additional freedoms? Your success or failure in Ph.D. research depends on it.
A few warnings:

Students sometimes enroll in a Ph.D. program for the wrong reasons. After a while, such students find that the requirements overwhelm them. Before starting one should realize that a Ph.D. is not:
Prestigious in itself
Almost everyone who has obtained a Ph.D. is proud of their efforts and the result. However, you should understand that once you graduate, you will work among a group of scientists who each hold a Ph.D. degree. (One faculty member used to chide arrogant graduate students by saying, “I don’t see why you think it’s such a great accomplishment — all my friends have a Ph.D!”).
A guarantee of respect for all your opinions
Many students believe that once they earn a Ph.D. people will automatically respect all their opinions. You will learn, however, that few people assume a Ph.D. in one subject automatically makes you an authority on others. It is especially true in the science communicaty; respect must be earned.
A goal in itself
A Ph.D. degree prepares you for research. If all you want is a diploma to hang on the wall, there are much easier ways to obtain one. After you graduate, you will have occasion to compare your record of accomplishment to those of other scientists. You will realize that what counts is the research work accumulated after a scientist finishes their formal education.
A job guarantee
When an economy slows, everyone can suffer. In fact, some companies reduce research before they reduce production, making Ph.D.s especially vulnerable. Furthermore, once a person earns a Ph.D., many companies will not hire that person for a non-research position. As in most professions, continued employment depends on continued performance.
A practical way to impress your family or friends
Your mother may be proud and excited when you enroll in a Ph.D. program. After all, she imagines that she will soon be able to brag about her child, “the doctor.” However, a desire to impress others is insufficient motivation for the effort required.
Something you can “try” to find out how smart you are
Sorry, but it just doesn’t work that way. Unless you make a total commitment, you will fail. You will need to work long hours, face many disappointments, stretch your mental capabilities, and learn to find order among apparently chaotic facts. Unless you have adopted the long-range goal of becoming a researcher, the day-to-day demands will wear you down. Standards will seem unnecessary high; rigor will seem unwarranted. If you only consider it a test, you will eventually walk away.
The only research topic you will ever pursue
Many students make the mistake of viewing their Ph.D. topic as a research area for life. They assume each researcher only works in one area, always pursues the same topic within that area, and always uses the same tools and approaches. Experienced researchers know that new questions arise constantly, and that old questions can become less interesting as time passes or new facts are discovered. The best people change topics and areas. It keeps them fresh and stimulates thinking. Plan to move on; prepare for change.
Easier than entering the work force
You will find that the path to successful completion of a Ph.D. becomes much steeper after you begin. The faculty impose constraints on your study, and do not permit unproductive students to remain in the program.
Better than the alternatives
For many students, a Ph.D. can be a curse. They must choose between being at the top among people who hold a Masters degree or being a mediocre researcher. The faculty sometimes advise students that they must choose between being “captain of the B team” or a “benchwarmer” on the A team. Everyone must decide what they want, and which profession will stimulate them most. But students should be realistic about their capabilities. If you really cannot determine where you stand, ask faculty members.
A way to make more money
While we haven’t heard any statistics for the past couple of years, graduate students used to estimate the “payoff” using the starting salaries of Ph.D. and M.S. positions, the average time required to obtain a Ph.D., the value of stock options, and current return on investments. For a period of at least five years that we know, the payoff was clearly negative. Suffice it to say that one must choose research because one loves it; a Ph.D. is not the optimum road to wealth.
The good news:

Despite all our warnings, we are proud that we earned Ph.D. degrees and proud of our research accomplishments. If you have the capability and interest, a research career can bring rewards unequaled in any other profession. You will meet and work with some of the brightest people on the planet. You will reach for ideas beyond your grasp, and in so doing extend your intellectual capabilities. You will solve problems that have not been solved before. You will explore concepts that have not been explored. You will uncover principles that change the way people use computers.
The joy of research:

A colleague summed up the way many researchers feel about their profession. When asked why he spent so many hours in the lab, he noted that the alternatives were to go home, where he would do the same things that millions of others were doing, or to work in his lab, where he could discover things that no other human had ever discovered. The smile on his face told the story: for him, working on research was sheer joy. Catatan untuk Gelar Ph.D

What to say when someone asks you: “Should I do a PhD?”

“Do you think I should do a PhD?”

It seems like I can’t go to a party without at least one person asking me this question – does this happen to you too? I probably shouldn’t be surprised; according to a recent government report the number of people undertaking a research degree in Australia has increased by 41%  over the last 10 or so years.

There’s no doubt that some students start without realistic expectations of the amount of work that is involved and how it may affect their life, which is why I was pleased when Dr Ehsan Gharaie, a lecturer in the school of property Construction and project management at RMIT, sent me this guest post.

As a recent PhD graduate in a field which is relatively new to this form of education, Ehsan tells me that he is often approached by people who ask him how to get into a PhD program. Ehsan tells me he replies: “tell me why and then, I will tell you how” – this seems like a good answer because PhD study is not for everyone.  I hope you will send you Ehsan’s list of diagnostic questions to the next person who asks you: “should I do a PhD?” (American readers please note – this post refers to the dissertation writing part of the PhD Program only)

Can you work without anyone telling you what to do?

A PhD is way different from Bachelor and Master Programs. There is no lecturer telling you what to do and you are not asked to do an assignment or sit for an exam. If you have been working in industry or government, you have probably got used to having a boss who tells you what to do and having staff who help you do your work. Here there is no boss, and no one helps you out. You have a supervisor who, if you are lucky, advises you and guides you through the process and that is all. Thus, think about yourself and see if you can work without anyone telling you what to do. There are many decisions that you have to make in the process and you should be ready to take on that responsibility.

Are you ready to work by yourself for four years?

Many PhD students work in isolation most of the time. There is no official classmate or peers. Your first and best friend is your computer and you have to spend years with it. The second person in your list of acquaintances is your supervisor which you interact with probably dozen times a year. Are you looking for the third person? The answer is none. Thus, be ready to work alone for four years.

Have you thought of your family commitments?

When you are an undergraduate student, your main concern is your study and the rest is just fun. But PhD usually happens when you have more important commitments. If you are not married, you are probably thinking of it. If you are married and have not had children yet, that is probably the next thing you are thinking of. Do you have children? Then you certainly think about them way more than your studies. There are even PhD students who have to take care of their parents. Further, you probably have a good job and thus, income and financial comfort and you should think the effect of your studies on your financial situation. You see, there are always life commitments, and the issue of study-life balance should be extremely important in your decision in doing PhD. You have to get your head around them before you start doing your PhD.

What is your career plan?

People usually study at universities to become trained and get a degree which has a clear set of professions or jobs attached to them. A PhD, like other university programs, is a training process; you will be trained to be a researcher or an academic. You learn how to do literature review, how to find a research problem, how to figure out a research methodology and method, how to follow and implement that method, how to present your result and at the end how to write a thesis that covers all your arguments and demonstrates all your efforts during past four years of your life. Thus, if you are interested in these “how tos” and if you want to become a researcher or an academic in the future, that would be the path to go through. But if you are thinking of some other things, you better think it twice.

And finally, why do you want to do it?

Getting PhD is not easy. It needs passion and patience. The only driver in the whole journey is your self-motivation. So what is your motivation? Is it the title of being a “Doctor”? Do you have a brother or sister with PhD and you feel you have to have it? Are you pushed by your family? If you are not convinced yet that you really need to do a PhD or you have doubts about it, wait for a while and do not rush to it. After all this is going to be at least four years of your life and you need to make sure that you will not run out of steam at the middle of way.

I hope this post will be read by a lot of people thinking about doing a PhD, so do you have advice you would like to offer? Pop it in the comments!Motivasi S3 LN