经典马来西亚留学申请书范文最新版【集锦】

马来西亚花卉种类。

在社会不断发展的现在，我们经常需要编写一些实用文书，多写实用文能提高一个人的修养，那么如何写一份实用类文书？下面是小编特地为大家整理的“经典马来西亚留学申请书范文最新版【集锦】”。

经典马来西亚留学申请书范文

Dear _,

Knowing where one is heading during navigation brings assured happiness. As a student majoring in Computer Software, I began my odyssey four years ago. Now, after the initial mysticism was gradually unveiled, my curiosity remains the same. Indeed, having entered this splendid computer world, I am more than greedy for something new.

From the beginning of my study, my endeavor was fixed on the underlying branches of Computer Science, particularly System Software development. Novel applications on other’s platform may be fruitful, but I think it’s more appealing to act as an independent “manager”. In fact, mathematics, OS, DBMS and modern compiler are all the examples, any breakthrough of which would push forward the whole industry. Individuality is achieved in this unique position.

My paces toward this goal are always steady. As mathematics permeates to the every corner of Computer Science, I am eager to see how it functions. I took courses offered by the Mathematics Department including Mathematical Analysis and Advanced Algebra. The curriculum also covered Discrete Mathematics, Probability & Statistics and Theoretical Computer Science. As supplement to my scope of knowledge, I learn by myself Combination Mathematics and the Science of Programming. This really made a hard period of time, but the harvest was rewarding. I come to understand that even the most irrelevant software disciplines have the origins in common. The importance of Fractured Geometry in Computer Graphics is already obvious. What if a step furthers toward TSP or Bin Packing? Immeasurable. Then came my favorite topics: Operating System, Compiler and Database. I worked hard and derived bits of my own insight. In fact, I was greatly encouraged to find some of my ideas successfully implemented in the corresponding course projects. My final grade is straight “As” in these coursed. In short, although my experience in Computer Science is still limited, I believe its depth is well accessible. As my advisor, Prof. Fang Yu, put it figuratively in one of his lectures: “ It makes no difference whether a hunter captures 5 or 7 rabbits. What counts is he knows how to use his gun.”

I think I can be the qualified shooter now. in my undergraduate years, I have earned various kinds of scholarships, among which were “Peking University Fellowship” and “Excellent Academic Scholarship”. My overall GPA ranks upper 10% among 48 students of the same grade. Because of my satisfactory performance, I was granted the honor of entering the graduate program at Peking University directly, waived of the admission test. In retrospect, my workload is always heavy but it is worth my time of effort. Presently, I have both adequate theoretical understanding and rich programming experience. READY I AM.

Of all the sub-areas of Computer Science, my major interest is parallel processing and the related compiler construction. The terminology of parallel processing came to me when I read an article about digital circuit testing. According to this article, there exist many serial approaches of solving the automatic test pattern generation (ATPG) problem. Though certain method of solving ATPG sometimes proved efficient, the computation time for a method of solving ATPG sometimes proved efficient, the computation time for a complete result is intolerable, the a parallel processing machine is proposed. Using paralleled ATPG method, this NP complete dilemma is ingeniously handled. After reading, I surprisingly realized that parallel processing opened a new window for the computationally intensive problems, which prove intractable for the VON NEUMANN Architecture. You can always first split a specific computational task into several independent divisions, then assign each part to a certain processor. With reasonable partition and proper synchronization, most grueling scientific applications can be reduced to normal scale problems.

With the advent of the multiprocessor architecture, compiler optimization faced a new challenge. A compiler not only has to translate, but it is also responsible for generating parallel-processing loop provides a rich opportunity of exploiting parallelism. Therefore, finding an optimum strategy for loops because a hot research topic. On the whole, parallelism changes our view toward the conventional computer architecture so that the compiler’s construction must make the corresponding modification. Because of this challenging characteristic, I choose them to be my interest of future study.

Yet parallel processing is far from maturity. It has been observed that some sequential algorithms can be easily translated into fast parallel algorithms while some others may not. Is every sequential computation can be done efficiently in parallel? If not, what properties result in such distinction? Another unsettled problem is programming parallel computers now is like programming serial computers in the 1960s. Programmers get locked into a particular manufacturer’s computers. Is it possible for us to design a higher level language for parallel computers that hides the underlying machine architecture from users? Both are crying out for solution.

Without advanced knowledge, I can do nothing but wait. In order to convert my undergraduate study into full play, graduate education is a necessity. From the college guide and my advisor’s recommendation, I am pleased to learn that your department has an academic atmosphere where originality is appreciated and individual potential is explored. It will be the best place for my specialized study. If possible, my main interest in the future will be in the following areas:

Parallel processing, Compiler construction.

Distributed/concurrent systems, Operating system.

Machine learning, Automated fault diagnosis.

As my undergraduate education is very basic, if you feel that I am more suited for some other areas, any of your suggestion would be highly appreciated.

Upon the completion of my study, I would return to Peking University and teach what I’ve learned to the students. Then I shall establish a research center to experiment new ideas. It is my ultimate goal to see the Chinese computer products leading the global market in the next century. After all, the navigation is not over yet!

Yours sincerely,

高中生毕业去马来西亚留学的几种途径

途径一：公立大学

据了解，马来西亚公立大学本科前几年几乎不对中国招生，而只招研究生。因为公立大学是非营利性质，主要是满足本地学生深造的需要。近年来，部分公立大学开始对中国招生，这样的话又给高中生多一个上大学的选择和机会。

公立大学的优势：与私立学校相比，公立大学校园环境优美，设施完整，学费低廉，学生们能够真正体会大学的全方位的生活和学习环境。

公立大学不足：大多数公立大学本科都是马来文和英文授课(80%的课程用马来文授课，20%的课程用英文授课)，如果学生愿意多学习一门语言，那么这种不足就变成优势，可以选择能够招收本科生的大学的所有专业，这样的话，等于在本科阶段掌握两门语言，即英语和马来语，为将来的就业和发展创造一个机会。

途径二：马来西亚私立大学及大学学院

马来西亚的私立大学分为三大类：大学、大学学院和学院，大学以及大学学院都是可以颁发自己的本科以上学士学位的学校，而学院则只能颁发大专文凭。马来西亚共有私立大学大学学院18所。这些大学也分为不同的层次和规模，有的有非常优美的大学校园，有的则是刚刚从私立学院升格为大学学院，没有自己的校园。另外他们的学费也有很大的差别。

途径三：国外大学的直属分校

马来西亚共有5所。英国诺丁汉大学的分校，澳大利亚科庭大学的分校、澳洲莫那什大学分校、澳洲斯威本大学的分校等等，可以满足那些非常希望直接到英国和澳大利亚但是又希望节约花费的学生，因为分校的学费是总校的一半或者1/3，而且分校的学生可以比较顺利的转到总校学习，尤其是英国诺丁汉大学的分校。当然这样的大学的学费一般比马来西亚本地的学校贵，而且入学要求也比较高。

途径四：私立学院

在马来西亚私立学院只能颁发大专文凭，不能颁发本科学位，所以这些学院就和海外大学合作开设双联课程，或者3+0课程，使得学生们获得海外大学的本科学士学位，这样的学院大约有600多所。但是能够直接在马来西亚获取第三国本科文凭的，即可以开设3+0课程的学校只有20所左右，其它的必须选择双联课程，即必须到第三国就读一到二年才能获取本科文凭。另外这些私立学校大部分都开设商科和计算机专业，部分有非常强的专业特长和优势。

马来西亚留学生活经验一览

一、衣着

马来西亚的气候温差不大，在这里是穿不上厚衣服的，没有特别低的气温，这样可以为学生们省去了很大的一笔购买衣服的钱，像那种简单的T恤在马来西亚是非常便宜的。带衣服去马来西亚也只要带夏装和外套就可以了，防晒的物品也要带，出门是必涂防晒霜。在马来西亚你要是遇上了正式场合男生要穿上西装，女生就要穿上正式一点的裙装，其他时候都是穿的比较随意的。

二、饮食

马来西亚人吃的菜叫马来菜，主食也是米，这里的饮食跟中国的差不多，在这里学习的学生应该是很快就能适应这里的饮食的。马来西亚不仅能尝到地道的马来菜，还能吃到中国菜，新鲜的海鲜在马来西亚也可以随处吃到。除了马来菜和中国菜，印度菜也能在这里品尝到。你要是想要在住的地方自己做饭的话，这里超市购买的食材成本是很低的。

三、住宿

在马来西亚住房不是很紧张的，这里的消费水平低，不管你是住在学校提供的宿舍还是在外面租房子都是比较便宜的，校外的房子有贵的和便宜的，你要看你是想住在哪种类型的房子里面，条件越好的房子房价是要贵一点的，在外面租房麻烦的事是很多的，你要自己找房子，签合同还要注意很多的问题。所以你还是要尽早的去申请学校的宿舍，住在学校的宿舍是能帮你省心省力又省钱的，实在是申请不到就要在国内确定好要租的房子，等到了马来西亚也不至于没有临时住的地方。

四、交通

马来西亚的交通设施还是很齐全的，在这里坐公交基本上是不会出现堵车的情况的，虽然这个国家的面积不是很大，但是这里的的大巴车还挺多的，也不用在等车上面花很长的时间，车费都是根据你坐了多长的距离来计费的。你要是想要打车的话是要提前预约车的。在马来西亚的有些城市有些公交是免费的，不需要你买票就能坐。

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马来西亚留学博士申请书【集锦】

马来西亚留学博士申请书

Dear _,

My four-year research experience since the completion of my undergraduate program in 1997 has helped me to develop from a Bachelor in Engineering to a Master in Science. My research activities cover a wide range of fields including analytical chemistry, physical chemistry, organic catalysis, environmental science, instrumental analysis, nano-analytical chemistry, and biological analytical chemistry. I am proud to say that I have accomplished achievements in almost every of those fields. Based on my research findings, I have published a dozen research papers. In particular, I have received patents from the Patent Office of China for two major research results The Preparation Method of a Solid Acid Catalyst with High Selectivity and Activity for Esterification and A New Reaction Technology and the Equipment for Gas Phase Esterification. Both of them have significant value in industrial application.

Nevertheless, I am acutely aware that, in the research fields I am interested in, there are still so many difficult subjects and challenges awaiting for solution. In physical chemistry, China is relatively backward in the fields of catalyst development, catalyst inactivation, reaction dynamics, reaction mechanism, geochemical reaction mechanism, environmental-chemical reaction mechanism. In analytical chemistry, China lags relatively behind its Western counterparts in areas such as instrumental analysis and theoretical analytical chemistry. Basically, China relies on import for large-scale analytical instruments. By contrast, the United States has many world-leading academic specialists and encourages interdisciplinary programs. It will accord me a stimulating and liberal academic environment, apart from the sophisticated research facilities. Rice University is my top priority in applying for a Ph.D. program and I choose to specialize in physical chemistry or in analytical chemistry.

At Rice University, I plan to learn broader-based foundational theories in my chosen fields. With my solid interdisciplinary knowledge and my ability for the quick assimilation of new knowledge, I intend to secure for myself a RA status to directly start my laboratory research under the guidance of my future advisor. I can also work as TA so that I can study while teaching and conducting my internship. I can apply, test and consolidate the theoretical knowledge that I acquire in the process of internship and degree program. Finally, through theoretical study and scientific research, I would endeavor to produce a well-written dissertation in which I hope to achieve some breakthroughs on both the theoretical and the research level.

After obtaining my Ph.D. degree, I intend to enter one of the top research institutes to delve deeper into some challenging subjects and to achieve some research fruits. After accumulating certain research experience at an actual research institute, I plan to return to China to work as a professor at a leading Chinese university, a position which will enable me to train many more academic professionals in physical or analytical chemistry. At the same time, I will also dedicate myself to turning my laboratory research results into yet more patents and inventions, which can further be developed into products with pragmatic applications.

During my studies in the United States, I will attempt at some detailed observations of its capital market, the most mature of its kind in the world, to acquire some necessary knowledge in company management and capital operation. For ultimately my career objective is to establish my own company to manufacture my own products, especially those environmentally-friendly chemical products, based on my patents and inventions.

Yours sincerely,

马来西亚大学博士申请条件

一、学位要求：

去马来西亚读书要求很低，中国学生高二以上学历，会考或毕业平均成绩在75分以上即可前往马来西亚攻读学士学位;三年制大专生可直接攻读硕士学位。如果要读MBA，则本科毕业生需要2年工作经验，大专需要5年工作经验。

二、学位语言要求：

对于欲攻读学士学位者，如TOEFL达不到550分，要先读语言班;欲攻读硕士和博士学位者，TOEFL要求在570-600，如达不到，也可以先读语言班。

三、费用要求：

马来西亚学士课程为三年制，每年学费，生活费约为5万人民币;硕士课程含语言培训为1年半，全部学费，生活费共需10万人民币。

四、申请材料：

1、留学生本人的有效护照;

2、留学生本人的护照照片3张;

3、留学生所申请的马来西亚大学寄来的录取通知书或入学通知书的复印件;

4、留学生的出生证明，证明需经过公证部门的公证及外交部驻华使馆的认证;

5、留学生的学历证明，证明需经过公证部门的公证及外交部驻华使馆的认证;

6、留学生的成绩证明，证明需经过公证部门的公证及外交部驻华使馆的认证;

7、留学生的个人简历表2份，简历表需要到马来西亚驻华大使馆统一领取;

8、马来西亚教育部门的批准书;

9、留学生如果已经成功申请了马来西亚大学的奖学金，则需要提供奖学金证明;

10、留学生所申请的学校如果要求留学生通过语言考试，则需要提供语言考试成绩证明;

11、留学生的经济担保证明，如果留学生是自己进行担保，则需要出具在权威银行存款的存款证明。

马来西亚博士留学申请须具备的材料

1、中英文的研究生毕业证和学位证，成绩单百分制高于75,CGPA3.0以上;

如是英语系国家毕业的硕士学历则不须公证;

2、雅思成绩

3、个人简历及学术简历

4、开题报告，研究型博士，需提供500-800字研究计划书。如果没有计划书，就不能申请。

5、存款证明，申请马来西亚博士留学需要有不低于10万存款证明。

7、两封推荐信

8、护照原件和复印件，全本扫描件;

9、电子版护照照片

马来西亚留学本科申请书【精选】

马来西亚留学本科申请书

Dear _,

I began my undergraduate study in the Department of Physics at Central China Normal University in September 1998. During the four years, I devoted myself to the mathematics, physics and computer coursed such as advanced mathematics, classical mechanics, quantum mechanics, statistical mechanics etc. It was my hop that I would be able to build a solid foundation for my future research. My undergraduate study was very successful and my overallGPA was among the top 5% in my class.

Academic Performance

After graduation in 1992,I was admitted by Peking University to pursue a Master’s Degree in Space Physics. The three-year graduate study at Peking University was fruitful. I took a number of coursed, such as Solar-terrestrial Space Physics, Space Plasma Physics and Ionosphere Physics, etc. In order to enlarge my knowledge background and to satisfy my curiosities to modern science., I audited and elected many other courses for other majors like General Relativity, Group Theory and Partial Differential Equations Simultaneously, I frequented the library to refer to different kinds of professional journals, such as Physics Review, Journal of computational Physic, Journal of Geophysical Research, Solar Physics, Astrophysics, etc. I kept myself well informed of the latest developments in this field, and developed my abilities to read and write English. To get a better understanding of academic research, I attended space physics academic communication meeting in 1992, and Geophysics Annual Conference in 1993 where many scientists delivered academic reports. I realized that undertaking the research work offers many interesting challenges, and I need to expand my knowledge in my field.

Because of my outstanding grades and academic performance, I was honored scholarship in two consecutive years, one is Subject Prize in the 1992-1993 academic year, the other is Guanghua Prize the highest scholarship at Peking University, in the 1993-1994 academic year.

Teaching Experience

At Central China Normal University, I took general education coursed, such as Psychology, Education and Teaching Methods. At the last semester, I began my teaching internship at high school. I taught my students clearly in aid of modern experiment instrument, and was widely welcomed by the students.

I became a teaching assistant in FORTRAN LLANGUAGE for undergraduate students at this semester at Peking University. In addition to the necessary FORTRAN 77 taught by the major teacher, I presented the students a variety of computer knowledge in C language, computer program design and computer software. I felt very pride when most of my students can operate computer expertly at the end of this semester.

Scholastic Aptitude

At my second year graduate study, I began to work as a research assistant of Professor Chuanyi Tu, a famous scientist in Space Sciences. He proposed the energy-cascading theory in a new solar wind model, and was awarded VIKRAM SARABHAI prize by COSPAR and ISRO. I modified his theory by considering the dissipation mechanism of the Alfven waves for heliocentric distance R 10R sun and developed a two-fluid model. The mechanism of solar wind acceleration is the basic problem in solar wind model. The purpose of my recent work is to explore the mechanism of solar wind acceleration and heating, and the mechanism of the heating of the corona. I want to establish the energy-cascading heating effect tow-fluid solar wind model by Alfvenic fluctuations, which can describe the radial evolution of power spectrum of Alfvenic fluctuation. The model includes the solar wind equations and power spectrum equation in the spatial and temporal. The FCT (flux-corrected-transport) methods are used to treat the mass equation and the momentum equation. The heat conduction equations as well as the power spectrum equation are treated by an implicit scheme. I devoted myself to the research and have solved most of the established problems independently.

This work is collaborated with Professor Hu at University of Science and Technology of China (USTC). This October and November, I took the opportunity to come to USTC to work directly under the guidance of Professor Hu, who is second to none for his achievements in the field of Magneto-hydrodynamics (MHD) numerical simulation in china. We discussed many questions about research theories and numerical methods. To determine whether a steady state is reached in the temporal evolution of the low, we need to examine some conserved quantities inherent in a steady-state solution to see if they are conserved throughout the domain. Through several weeks’ hard work in the Space Physics Laboratory of USTC, I achieved satisfactory solutions. The mass flux, momentum flux and energy flux are constant within 5%, 0.5% and 3%. In addition, I also participated in their seminar about nonlinear dynamics, and audited some coursed like chaotic dynamics. I realized that my collaboration with other university especially with USTC will give me a more solid and broad background on mathematics and Physics, and may make it easy for me to go into these fields of my later research.

Now, having experienced success and failure in my research work and studies, I have possessed the capacity of carrying research independently and developed my own working habit that somehow we seem to be successful. I believe I hold adequate potential to be further developed. I enjoy my present study and work, which are challenging and desirable. However, I am very eager to further my study in my chosen field up to the most advanced level in your institute. I love the research work and have aimed at a life time career in science for a long time. Upon completion of my study, I will return and make contributions to my homeland.

Yours sincerely,

马来西亚留学本科申请条件及费用

一、马来西亚留学本科申请条件

1.高中或同等学历

申请马来西亚本科需要有高中或同等学历比如高职和中专的文凭，专科学生也要有高中或同等学历文凭。毕业之前申请公立大学的同学在确保可以拿到文凭的前提，提供学校开具的预毕业证明提前申请即可。

2.成绩合格

马来西亚公立大学本科录取要求较高，需要高中3年6学期期末成绩平均分至少达到80以上(满分100)，专科CGPA达到3.0以上。随着申请马来西亚大学的学生人数越来越多，公立大学录取标准也在逐年提升。马来西亚私立大学数量要远大于公立大学，也不像公立大学招生名额非常有限，因此成绩平均分达到60以上就有机会申请，部分私立大学需要达到平均分70或者80以上。

3.语言要求

马来西亚本科申请需要提供雅思或托福等学校认可的语言能力证明。学士专业最低要求雅思5分，要求6.5分。如果没有雅思或其它认可的语言成绩，可以申请有条件录取，先读学校的语言班提升，再考到专业要求的雅思分数，即可进入专业课的学习。

马来西亚本科申请门槛较低，不需要考试，不需要中国高考成绩，高中、专科、高职等学历学生均可申请，没有雅思的同学可以先申请有条件录取到学校读语言班。

二、马来西亚留学本科费用

1、学费

本科阶段一年学费约8000-12000人民币，杂费约2000-3000人民币。每年实际费用约3万-4.5万人民币。

私立大学则贵一些，同学们根据自己情况选择即可。

2、生活费

学生的生活费根据学生所在地区而定，一般每月大概是700-1000元马币。

3、住宿费

学校宿舍每个月290-760马币左右，校外租房的话，每个月大概250-600马币。

在校外租房的同学们可以选择学校附近的学生公寓，步行到校。

4、餐费

一日三餐在5.5-9马币左右，同学们选择自己做饭的话，会更便宜一些。

马来西亚的本科阶段学制是三年，硕士1-2年，个别专业例外。

马来西亚留学申请流程

1、确认目标

大家如果有出国的打算的话，一定要早一点进行确认，这样后续才有更多的时间来对自己进行有针对性的提升，而目标学校和目标专业是同样重要的，需要综合各方面的因素。

个人的能力就是非常重要的一个方面，还要考虑到未来的就业情况，自然是首选，适合自己的专业才能够有助于大家优势的展示，可以享受的教学软硬件和服务是很重要的。

2、准备材料

然后是根据自己的目标要求，进行材料的准备，时间足够的话，还可以进行提升，重点可以放在语言上，保证自己能够在提交申请的时候，出示很不错的成绩单，IELTS或者TOEFL都可以。

学术类的证书和成绩单在完成学业后回自动获取，而基础的文书CV、PS、RL则需要大家进行书写，展示申请者的优势，最后是身份类的材料，要保证真实和完整，确认没有遗漏。

3、提交申请

学校开放了申请的渠道，自己的材料也准备好了之后，大家就可以提交自己正式的申请了，网申表是直接在线上填写的，大家确认了自己的资格之后，就可以直接进行提交，先占据名额。

然后就是按照学校的要求将文书材料整理好，再通过邮寄的方式，将所有的材料打包好了之后，再寄往学校，一定要进行追踪，确定自己的材料，可以顺利的学校接收到。

4、确认录取

目前的审核速度已经大大的进行了提升，可以比较快的拿到审核的结果，一般等待一个月左右的时间就足够了，大家可以等左右结果出来再进行确认，保证自己做出合适的选择。

要对拿到手的所有offer进行对比，确认最适合自己的职业规划的目标，这样后续的学习也会顺利很多，确认了之后，还需要缴纳学费进行资格的确认。