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I instruct xx classmate question have half year probably for project of xxx, so behavior in she have dark understanding very. She is mainly responsible for proposition and preparation and summary of previous literature of the intention. Her diligence has left a very deep impression on me rigorously: She attends the regular meeting each time on time, has put forward a lot of creative opinions for the person in charge, have really made to order main contribution out for the selected title. In addition, consult the respect in the literature, she has read a lot of our country and English literature in an all-round way, stand after providing for research of the project the sufficient materials. During doing interview, she has revealed that being regarded as is not sociology student's enthusiasm and intelligent to the project. She has learnt a lot of sociology research means, it is believed that this will offer experience for her research for the future.
I guided the students xx,entitled xxx project about six months time, her performance has a very deep understanding. She is mainly responsible for the ideas put forward and pre-prepared document and summary. Her hard stringent gave me deep impression: She attended every meeting on time for the people responsible for a lot of creative ideas for the topics to make the determination of the main contributions. In addition, in the literature available, she read many comprehensive domestic and English literature to the research provided sufficient information in support. Doing interviews, she shows the students of sociology as a non-project enthusiasm and bright. She learned a lot of sociological research methods, I believe this will be the future for her research guided the students xx,entitled xxx project about six months time, her performance has a very deep understanding. She is mainly responsible for the ideas put forward and pre-prepared document and summary. Her hard stringent gave me deep impression: She attended every meeting on time for the people responsible for a lot of creative ideas for the topics to make the determination of the main contributions. In addition, in the literature available, she read many comprehensive domestic and English literature to the research provided sufficient information in support. Doing interviews, she shows the students of sociology as a non-project enthusiasm and bright. She learned a lot of sociological research methods, I believe this will be the future for her research guided the students xx,entitled xxx project about six months time, her performance has a very deep understanding. She is mainly responsible for the ideas put forward and pre-prepared document and summary. Her hard stringent gave me deep impression: She attended every meeting on time for the people responsible for a lot of creative ideas for the topics to make the determination of the main contributions. In addition, in the literature available, she read many comprehensive domestic and English literature to the research provided sufficient information in support. Doing interviews, she shows the students of sociology as a non-project enthusiasm and bright. She learned a lot of sociological research methods, I believe this will be the future for her research guided the students xx,entitled xxx project about six months time, her performance has a very deep understanding. She is mainly responsible for the ideas put forward and pre-prepared document and summary. Her hard stringent gave me deep impression: She attended every meeting on time for the people responsible for a lot of creative ideas for the topics to make the determination of the main contributions. In addition, in the literature available, she read many comprehensive domestic and English literature to the research provided sufficient information in support. Doing interviews, she shows the students of sociology as a non-project enthusiasm and bright. She learned a lot of sociological research methods, I believe this will be the future for her research guided the students xx,entitled xxx project about six months time, her performance has a very deep understanding. She is mainly responsible for the ideas put forward and pre-prepared document and summary. Her hard stringent gave me deep impression: She attended every meeting on time for the people responsible for a lot of creative ideas for the topics to make the determination of the main contributions. In addition, in the literature available, she read many comprehensive domestic and English literature to the research provided sufficient information in support. Doing interviews, she shows the students of sociology as a non-project enthusiasm and bright. She learned a lot of sociological research methods, I believe this will be the future for her research guided the students xx,entitled xxx project about six months time, her performance has a very deep understanding. She is mainly responsible for the ideas put forward and pre-prepared document and summary. Her hard stringent gave me deep impression: She attended every meeting on time for the people responsible for a lot of creative ideas for the topics to make the determination of the main contributions. In addition, in the literature available, she read many comprehensive domestic and English literature to the research provided sufficient information in support. Doing interviews, she shows the students of sociology as a non-project enthusiasm and bright. She learned a lot of sociological research methods, I believe this will be the future for her research experience.
我指导了xx同学题为xxx的项目大约有半年时间,因此对于她的表现有很深的了解。I have guided student XXX in the project XXX for about six months. Therefore, I have very good knowledge of her performance. 她主要负责创意的提出和前期文献的准备和总结。She was mainly in charge of putting forward new ideas and preparing and sumarizing previous related literatures.她的勤奋严谨给了我很深的印象:她准时出席每次例会,为负责人提出了很多有创意的见解,为选题的确定做出了主要的贡献She was hard-working and rigorous and impressed me very much: she attended every meeting on time, and had many creative opinions for the project leaders, and made major contributions to the determination of the research direction.另外,在文献查阅方面,她全面阅读了许多国内和英文文献,给项目的研究提供了充足的资料支持。In addition, she searched and read many Chinese and English literatures and provided valuable material and document support of to the project research.在做访谈期间,她显示了作为非社会学学生对项目的热情和聪颖。她学会了很多社会学方面的研究手段,相信这会为她以后的研究提供经验。She visited and talked to many people and demonstrated her enthusiasm and intelligence in the process as a non-socialogy major student. She has learned many means of socialogical study. I believe that her experience will be very useful in her future research.有些改动,使得更符合英语习惯。
译文 :I guided the students xx,entitled xxx project about six months time, her performance has a very deep understanding. She is mainly responsible for the ideas put forward and pre-prepared document and summary. Her hard stringent gave me deep impression: She attended every meeting on time for the people responsible for a lot of creative ideas for the topics to make the determination of the main contributions. In addition, in the literature available, she read many comprehensive domestic and English literature to the research provided sufficient information in support. Doing interviews, she shows the students of sociology as a non-project enthusiasm and bright. She learned a lot of sociological research methods, I believe this will be the future for her research experience.
关于英语期刊排行榜如下:
各学科的世界顶级权威期刊都有哪些各领域的大拿,能说说自己领域里面比较认可的国际、国内期刊都有哪些吗?理学方面,比如数学、物理、化学…除了数学之外,arxiv也包括了其他的研究领域,例如物理,计算机科学,生物等方向的论文也能够在arxiv上面找到。
世界10大著名学术期刊2015-03-07国际学术三大顶期刊科学自然细胞含金量哪个大学上的最多802017-04-21世界著名的社会学人类学学术期刊有哪些2009-02-03谁知道世界3300种著名学术刊物名录吗?62010-11-01世界权威学术杂志有哪些?2013-05-02兰台世界是学术期刊么
世界最好的科学杂志top9《科学美国人》《科学美国人》(英文原名:ScientificAmerican,缩写:SciAm)是美国的一本科普杂志,始于1845年8月28日,起先是每周出版,后改为每月出版;作为《自然》的姐妹出版物,《科学美国人》涵盖的受众包括企业主、高级经理人、决策者和意见领袖,与《自然》的
是专业潮流时尚网站,囊括每季国际时装发布和潮流趋势解读,专注于潮流服饰、流行服装、美容美体、护肤彩妆、珠宝配饰、奢侈品、名表、手袋、鞋靴等时尚领域,报道重大时尚事件、国际时装周、新品发布、明星时尚、名流派对、珠宝展会、腕
全球十大时尚杂志排行《VOGUE》《VOGUE》期刊是由美国康泰纳仕集团出版发行的一本期刊。创刊于1892年,是世界上历史悠久广受尊崇的一本综合性时尚生活类杂志。杂志内容涉及时装、化妆、美容、健康、娱乐和艺术等各个方面,被奉为世界的。
必克英语中国比较知名英语学习网站之一,是中国排名较高的教育类网站之一.它包括了学习,讨论,电子杂志,语音聊天,资料下载,学习专题,学友俱乐部等栏目。.该网站为不同层次的英语学习者提供了各种学习资料,是一个英语学习的好帮手。.英语之声是
不少学生或者人员都需要进行英语论文的发表,和中文论文相比较,不仅是内容所用语言的区别,还有很多不同之处。发表论文之前也需要仔细比较期刊,我们就和大家分享一下英语论文发表的常见期刊。
英语论文发表常见国内期刊有哪些——期刊推荐
1、《外语界》,ISSN:1004-5112
2、《外语教学与研究》,ISSN:1000-0429
3、《现代外语》,ISSN:1003-6105
4、《中国外语》,ISSN:1672-9382
5、《外语研究》,ISSN:1005-7242
6、《外语学刊》,ISSN:1000-0100
7、《上海翻译》,ISSN:1672-9358
8、《校园英语》省级知网跨库,是12月出刊,可以收全英文文章2版4600字符或9200英文字符起发。
9、《海外英语》省级知网首页可查,只收21年上半年的加急版面(注意截止到2020年9月3日,他还是只收加急的上半年版面)。
1、杂志名:《中学英语园地》。主编:李梦海。简介:《 中学英语园地》创刊于 1985年 ,由河南大学外语学院与河南大学出版社结合主办,是一份面向全国中学师生发行的外语教学辅导类期刊。 2、杂志名:《英语学习》。主编:侯毅凌。简介:《英语学习》是2010年外语教学与研究出版社出版的图书,作者是侯毅凌。本书包罗政治、文化、商业、科技、文学、娱乐、旅游、职场以及日常生活等各个领域的潮流讯息。 3、杂志名:《中小学英语教学与研究》。主编:王斌华。简介:《中小学英语教学与研究》杂志又名为《中小学英语教学与研究》杂志。期刊经由国家教育部批准,华东师范大学为主办单位。期刊出版地在上海市,语种是中文,开本是16开。 4、杂志名:《中学生英语读写》。主编:马王胜。简介:遵循大纲辅导,突出读写训练,点拨学习技巧,提高交际水平。 5、杂志名:《中小学外语教学》。主编:赵群。简介:创刊于1978年,是由北京师范大学主办、以中小学英语教师及教研人员为主要读者对象的刊物。
常见的英文论文发表的刊物有很多的,在这里提醒大家的是注意你论文的专业是什么方向,同时还需注意你职称晋升需要什么方面的期刊等级等,对于SCI还是什么类的刊物,若是你不太了解,不妨来中国月期刊咨询网来看看。
相信很多人会遇到这样一个类似的问题,那就是在英文论文写好之后,却苦于找不到国内经常使用的论文发表期刊有哪些。下面是根据多年的经验总结出来的其中比较受欢迎的期刊,希望对您有一定帮助。至于查重可以了解一下paperfree。谢谢!zAcademic Journal of Xi'an Jiaotong University(English Edition)Acta Geologica SinicaActa Mathematica ScientiaActa Oceanologica SinicaActa Pharmacologica SinicaActa Seismologica SinicaADVANCES IN ATMOSPHERIC SCIENCESApplied Mathematics A Journal of Chinese UniversitiesBiomedical and Environmental SciencesCell ResearchChemical Research in Chinese UniversitiesChina WeldingChinese Annals of Mathematics,Series BChinese Chemical LettersChinese Geographical ScienceChinese Journal of AeronauticsChinese Journal of Astronomy and AstrophysicsChinese Journal of Cancer ResearchChinese Journal of Chemical EngineeringChinese Journal of GeochemistryChinese Journal of Integrative MedicineChinese Journal of LasersChinese Journal of Mechanical EngineeringChinese Journal of Oceanology and LimnologyChinese Journal of Polar ScienceChinese Journal of Reactive PolymersChinese Journal of Sexually Tuansmitted InfectionsChinese Journal of Traumatology (English Edition)Chinese Medical JournalChinese Medical Sciences JournalChinese Quarterly Journal of MathematicsChinese Rice Research NewsletterChinese Science BulletinCommunications In Theoretical PhysicsEarthquake Engineering and Engineering VibrationElectricityForestry Studies in ChinaGeo-spatial Information ScienceHigh Technology LettersHunan Agricultural Science & Technology NewsletterInternational Journal of Plant Engineering and ManagementJournal of Beijing Institute of TechnologyJournal of Central South University of Technology(English Edition)Journal of China University of GeosciencesJournal of China University of Mining and TechnologyJournal of Chongqing University(English Edition)Journal of Coal Science & Engineering(China)Journal of Computer Science and TechnologyJournal of Electronics(China)Journal of Environmental SciencesJournal of Forestry ResearchJournal of Geographical SciencesJournal of Harbin Institute of Technology(New Series)Journal of Huazhong University of Science and Technology(Medical Sciences)Journal of HydrodynamicsJournal of Iron and Steel Research,InternationalJournal of Materials Science & TechnologyJournal of Nanjing Medical University(English Edition)Journal of Northeast Agricultural University(English Edition)Journal of Rare EarthsJOURNAL OF SHANGHAI JIAOTONG UNIVERSITYJournal of Shanghai Second Medical UniversityJournal of Shanghai University(English Edition)Journal of Southeast University(English Edition)Journal of Southwest Jiaotong University(Englis Edition)Journal of Systems Engineering and ElectronicsJournal of Systems Science and ComplexityJournal of Traditional Chinese MedicineJournal of Tropical MeteorologyJournal of University of Science and Technology BeijingJournal of Wuhan University of Technology (Materials Science Edition)Journal of Zhejiang University(Science)Nuclear Science and TechniquesNumerical Mathematics A Journal of Chinese Universities English SeriesPedospherePlasma Science and TechnologyProgress in Natural ScienceRare MetalsReproduction & ContraceptionScience In China (Chemistry)SCIENCE IN CHINA (Earth Sciences)Science In China (Information Sciences)Science In China (Life Sciences)Science In China (Mathematics Physics Astronomy)Science In China (Technological Sciences)Semiconductor Photonics and TechnologyThe Chinese-German Journal of Clinical OncologyThe Journal of China Universities of Posts and TelecommunicationsTransactions of Nanjing University of Aeronautics and AstronauticsTransactions of Nonferrous Metals Society of ChinaTransactions of Tianjin UniversityTsinghua Science and TechnologyWuhan University Journal of Natural Sciences
DDS and converter form signal generatorMany applications require low-frequency signal generators that can deliver high-performance, high-resolution signals. This Design Idea presents a circuit that generates frequencies of 0 to 1 MHz. Sinusoidal, triangular, and square-wave outputs are available. You can achieve frequency resolution of better than Hz and phase resolution of better than °; thus, you can program exact coherent frequencies. This feature is useful in digital modulation and frequency-tuning applications. The circuit uses the ADµC831 and AD9834 to generate the required frequencies (Figure 1). You can program the microcontroller from either a PC or a Unix-based workstation. You then program the AD9834 using a three-wire serial interface via the microcontroller. The interface word is 16 bits can program the AD9834 to provide sinusoidal, triangular, and square-wave outputs using the DDS (direct-digital-synthesis) architecture. The chip operates as an NCO (numerically controlled oscillator) using an on-chip, 28-bit phase accumulator, sine-coefficient ROM, and a 10-bit D/A converter. You typically consider sine waves in terms of their magnitude form, A(t)=sin(ωt). The amplitude is nonlinear and is, therefore, difficult to generate. The angular information, on the other hand, is perfectly linear. That is, the phase angle rotates through a fixed angle for each unit in time. Knowing that the phase of a sine wave is linear, and, given a reference interval (clock period), you can determine the phase rotation for that period: ΔPhase=ω dt; ω=ΔPhase/dt=2πf, and f=(ΔPhase×fMCLK)/(2π), where dt=1/fMCLK, and fMCLK is the master this formula, you can generate output frequencies, knowing the phase and master-clock frequency. The phase accumulator provides the 28-bit linear phase. The amplitude coefficients of the output sine wave are stored in digital format in the sine-coefficient ROM. The DAC converts the sine wave to the analog domain. If you bypass the ROM, the AD9834 delivers triangular waveforms instead of sinusoidal waveforms. A square-wave output is also available on the part. Figure 2 shows the various waveforms available from the system. As shown in Figure 1, the sinusoidal/ triangular output waveforms are available on the IOUT pin (Pin 19); and the square wave output is available on the SIGN_BIT_OUT pin (Pin 16). You program the DDS by writing to the frequency registers. The analog output from the part is then: fOUT=fMCLK/228×(frequency-register word).The outputs of the DDS have 28-bit resolution, so effective frequency steps on the order of Hz are possible to a maximum of approximately 1 MHz. Figure 2 shows the typical waveform outputs. Two phase registers are available that allow 12-bit phase resolution. These registers phase-shift the signal by: Phase shift=2π/4096×(phase-register word).A 50-MHz crystal oscillator provides the reference clock for the DDS. The output stage of the DDS is a current-output DAC loaded by an external resistor. A 200Ω resistor generates the required peak-to-peak voltage range. The output is ac-coupled through capacitor C1. The MicroConverter contains two on-chip, 12-bit DACs. DAC1 varies the current through R5, adjusting the full-scale current of the DDS via the FSADJUST pin. The equation to control the full-scale current of the DDS DAC is: IOUT (full-scale)=18×I×, the internal reference of the MicroConverter, and op amp 2 allow for offset control of the output voltage of the DDS. You can program this dc offset to ±10V at 10-bit resolution. When R1=R2 and the gain of op amp 2=8, then the output of op amp 2 is: VOUT=(DAC output–(VREF/2))×8, yielding a ±10V R6 through R9 allow for control of gain through op amp 3. The gain of the op amp is a function of resistor switching, which you enable using the RDRIVE pin available on the MicroConverter. This operation allows for an effective programmable-output amplitude of approximately ±10V p-p. Thus, the circuit allows for programmable sinusoidal and triangular waves, including dc offsets, and the ability to set peak-to-peak amplitude of approximately ±10V. The square wave output on the SIGN_BIT_OUT pin has 0 to 5V amplitude. For low-frequency operation, a lowpass filter normally serves to filter reference-clock frequencies, spurs, and other images. For applications in which the output signal needs amplification, you should use a narrowband filter to filter out unwanted noise before the gain stage. A third-order filter would be good enough to remove most of the unwanted noise. Figure 3 shows a typical spectral plot of the output. Applications for this circuit range from signal-waveform generation to digital modulation. You can use the system in frequency-sweeping and -scanning applications and in resonance applications that use the frequency as an excitation signal to determine circuit resonance. Another useful application is as a reference oscillator for a PLL system.
convertor和converter意思是一样的。英国人更喜欢用convertor。
2-3个月。因为converter论文从见刊到检索,需要一定的时间,具体多久与各converter期刊有关,一般是2-3个月左右。此时期刊方会把发表见刊的论文,送检converter数据库收录。
; Direct Digital SynthesisDirect Digital Synthesis (DDS) is an electronic method for digitally creating arbitrary waveforms and frequencies from a single, fixed source basic DDS circuit consists of an electronic controller, a random-access memory, a frequency reference (usually a crystal oscillator), a counter and a digital-to-analogue converter (DAC). Two operating steps are required to make the device work: we shall call these programming and the programming step, the electronic controller fills the memory with data. Each item of data is a binary word representing the amplitude of the signal at an instant of time. The array of data in the memory then forms a table of amplitudes, with time implied by the position in the table. If, for example, the first half of the table were filled with zeroes and the second half with values of 100%, then the data would represent a square wave. Any other wave shape can be created simply by altering the the running step, the counter (properly called the phase accumulator) is instructed to advance by a certain increment on each pulse from the frequency reference. The output of the phase accumulator (the phase) is used to select each item in the data table in turn. Finally, the DAC converts this sequence of data to an analogue generate a periodic waveform, the circuit is set up so that one pass through the table takes a time equal to the period of the waveform. For example, if the reference frequency is 1 MHz, and the table contains 1000 entries, then a complete pass through the table with a phase increment of 1 will take 1000 / 1 MHz = 1 ms, so the frequency of the output waveform will be 1/(1 ms) = 1 system can generate a higher output frequency simply by increasing the phase increment so that the counter runs through the table more quickly. In the example above, the phase increment is equal to 1, so the next possible frequency is obtained by setting the increment to 2, resulting in a doubling of output frequency. To obtain a finer control of frequency than this, the standard phase increment can be set to, say, 10. This then allows slightly higher or lower output frequencies. For example, increasing the increment to 11 would increase the output frequency by 10%, and reducing it to 9 would decrease the output frequency by the same proportion. The more precision required over the frequency, the more bits are needed in the detailsPractical implementations usually set the size of the lookup table to be a power of 2 and work with 32-bit phase accumulators and phase increments. Usually the upper 8 or 10 bits of the counter are used as lookup table index (lookup table size is 256 or 1024, respectively). The remaining lower bits can be used as a parameter or index to interpolate between the adjacent entries in the lookup table. Often linear interpolation suffices. The source frequency usually comes from a crystal of 1 MHz to 100 highest frequency that can be generated this way depends on the size of the lookup table and the frequency. In order to generate a reasonable representation of the waveform, at least a minimum number of samples must be taken from it. If the phase increment becomes too large, then the counter would step through the lookup table too fast and the result may be a severe distortion of the output exist in both software and hardware. Due to the realtime nature of DDS, software implementations are usually limited to audio of DDS are: function generators, mixers, modulators, and sound 信号发生器 Signal Generator A signal generator, also known variously as a test signal generator, function generator, tone generator, arbitrary waveform generator, or frequency generator is an electronic device that generates repeating electronic signals (in either the analog or digital domains). They are generally used in designing, testing, troubleshooting, and repairing electronic or electroacoustic devices; though they often have artistic uses as are many different types of signal generators, with different purposes and applications (and at varying levels of expense); in general, no device is suitable for all possible , signal generators have been embedded hardware units, but since the age of multimedia-PCs, flexible, programmable software tone generators have also been purpose signal generatorsFunction generatorsA function generator is a device which produces simple repetitive waveforms. Such devices contain an electronic oscillator, a circuit that is capable of creating a repetitive waveform. (Modern devices may use digital signal processing to synthesize waveforms, followed by a digital to analog converter, or DAC, to produce an analog output). The most common waveform is a sine wave, but sawtooth, step (pulse), square, and triangular waveform oscillators are commonly available as are arbitrary waveform generators (AWGs). If the oscillator operates above the audio frequency range (>20 kHz), the generator will often include some sort of modulation function such as amplitude modulation (AM), frequency modulation (FM), or phase modulation (PM) as well as a second oscillator that provides an audio frequency modulation generators are typically used in simple electronics repair and design; where they are used to stimulate a circuit under test. A device such as an oscilloscope is then used to measure the circuit's output. Function generators vary in the number of outputs they feature, frequency range, frequency accuracy and stability, and several other parameters.[edit] Arbitrary waveform generatorsMain article: Arbitrary waveform generatorArbitrary waveform generators, or AWGs, are sophisticated signal generators which allow the user to generate arbitrary waveforms, within published limits of frequency range, accuracy, and output level. Unlike function generators, which are limited to a simple set of waveforms; an AWG allows the user to specify a source waveform in a variety of different ways. AWGs are generally more expensive than function generators, and are often more highly limited in available bandwidth; as a result, they are generally limited to higher-end design and test applications.[edit] Special purpose signal generatorsIn addition to the above general-purpose devices, there are several classes of signal generators designed for specific applications.[edit] Tone generators and audio generatorsA tone generator is a type of signal generator optimized for use in audio and acoustics applications. Tone generators typically include sine waves over the audio frequency range (20 Hz–20 kHz). Sophisticated tone generators will also include sweep generators (a function which varies the output frequency over a range, in order to make frequency-domain measurements), multitone generators (which output several tones simultaneously, and are used to check for intermodulation distortion and other non-linear effects), and tone bursts (used to measure response to transients). Tone generators are typically used in conjunction with sound level meters, when measuring the acoustics of a room or a sound reproduction system, and/or with oscilloscopes or specialized audio tone generators operate in the digital domain, producing output in various digital audio formats such as AES-3, or SPDIF. Such generators may include special signals to stimulate various digital effects and problems, such as clipping, jitter, bit errors; they also often provide ways to manipulate the metadata associated with digital audio term synthesizer is used for a device that generates audio signals for music, or that uses slightly more intricate methods.[edit] Video signal generatorsMain article: Video signal generatorA video signal generator is a device which outputs predetermined video and/or television waveforms, and other signals used to stimulate faults in, or aid in parametric measurements of, television and video systems. There are several different types of video signal generators in widespread use. Regardless of the specific type, the output of a video generator will generally contain synchronization signals appropriate for television, including horizontal and vertical sync pulses (in analog) or sync words (in digital). Generators of composite video signals (such as NTSC and PAL) will also include a colorburst signal as part of the output. Video signal generators are available for a wide variety of applications, and for a wide variety of digital formats; many of these also include audio generation capability (as the audio track is an important part of any video or television program or motion picture).
《英国心理学月刊》(British Journal of Psychology)是由英国心理学会(British Psychological Society)出版的一份学术期刊,涵盖了心理学各个领域的研究和评论,包括认知心理学、社会心理学、发展心理学、神经心理学等。该刊物创刊于1911年,是英国心理学界权威性较高的期刊之一,也是国际心理学界广泛引用的重要刊物之一。
这是《泰晤士报》-----TIMES 的英文网站,去看吧。
《每日快报》---Daily Express 《每日邮报》----Daily Mail 《每日镜报》----Daily Mirror 《每日星报》----Daily Star 《太阳报》----SUN 《金融时报》----Financial Times 《每日电讯报》--- Daily Telegraph 《卫报》--- Guardian 《独立报》---Independent 《泰晤士报》-----TIMES 《世界新闻》--- News of the World 《星期日快报》----Sunday Express 《星期日镜报》-----Sunday Mirror 《星期日邮报》----Sunday Mail 《人民报》--- People 《星期日电讯报》----Sunday Telegraph 《观察家报》---Observer 《星期日泰晤士报》----Sunday Times
杂志一词,源自法文,本意是仓库。早期英国的杂志内容,包括小品、诗、论文和其他各式各样体裁的文章,真可以说是包罗万象,与杂志一词的本意名实相符。“杂志”这个词第一次被用以称为刊物,是1931年在伦敦出版的《绅士杂志》,后来就正式被沿用为杂志的通称。在最初,杂志和报纸的形式差不多,极易混淆。后来,报纸逐渐趋向于刊载有时间性的新闻,杂志则专刊小说、游记和娱乐性文章,在内容的区别上越来越明显。在形式上,报纸的版面越来越大,开本为对折,而杂志则经装�%