如何提高GRE阅读分数范文.docx
《如何提高GRE阅读分数范文.docx》由会员分享,可在线阅读,更多相关《如何提高GRE阅读分数范文.docx(18页珍藏版)》请在淘文阁 - 分享文档赚钱的网站上搜索。
1、如何提高GRE阅读分数如何提高GRE阅读分数 新GRE阅读文章分类 1. 按题材分:文学评论, 美国历史, 弱势群体, 生命科学 2. 按写作方法分:presentation立论, argument评论 3. 按写作套路分:新旧观点型、现象说明型、结论说明型、问题解决型 训练阅读速度 先别做题了,先拿来一篇文章,做完,然后回过头去看那篇文章,划出认为肯定得读的词,把不用看的化掉,比如however,but是必读的,for example之后不用细看。依据题目推断哪些词是必读,这样做个5,6篇文章就有把握了,哪些是关键词。不要盲目的参考其他书说的什么,not only之后不用看,but also
2、要看之类的,肯定要自己总结,这样才能尽快习惯。 之后就接着大量训练,不停卡时间,强迫读关键词,读完做题,这样很快就能快速读完了。同时也要看杨鹏长难句,细致体会怎么快速破解一句难句。做阅读时,尽量做到不回视,除了ts之类的,都一遍读下来,训练的时候肯定要这样,养成这个习惯,强迫自己集中留意力。考试的时候,可以反复琢磨下关键句子。 意群阅读训练法 从阅读的意义上来讲,意群就是指大家平常阅读一篇文章时,视线每停留一次,进入视界范围的单词会有多个。这些单词不带有随意性,单词与单词之间的逻辑意义紧密相连,所以可以暂且将这种意义紧密相连的多个单词视为一个意群。 要想将这种方法运用到实际的阅读当中,那就有必
3、要知道,语篇的构成单位为段落,段落的构成单位则是句子,而句子的最终构成单位为语言意义的基本载体单元词汇。而意群训练,是指根据对词汇之间意义的紧密性及对英语句子的结构进行拆分的阅读方法,这样不仅利于阅读速度的提升还可以提高一个人对语篇环境的适应实力。 解除法做题 解除法可以说是应对全部选择题的万能技巧之一,虽然在GRE阅读中解除法或许无法帮你精准地找到最终的正确答案,但在解题初期通过解除法缩小选项范围,把原来五选一的题目变成二选一或者三选一还是很有价值的。所以解除法大家也须要驾驭,结合解题思路更有效地提升解题效率,节约考试时间。 GRE阅读材料要精挑细选 科学发电要更倚重自然 说到GRE阅读,无
4、非就是多看。但是看什么很关键。短期捷径有没有?当然有,那就是GRE阅读机经,本月最新的阅读机经已经发布, 假如从长远来看,那就是要多看文章,多读书,了解的多接触的多,自然不怕,也能够更加熟识英文表达。但是时间有限,选择看什么就很重要。小编通过询问相关资深GRE培训老师,为大家精选了许多外媒主流杂志,每天会发布一篇文章,包含中文翻译,供大家学习! design, nature has often got there first 若论巧夺天工,自然经常更胜一筹 A virtuous spiral 上面的螺纹看似简洁,实际有效 SOLAR-POWER stations take up a lot o
5、f room. 太阳能发电站占地面积巨大, They need either vast arrays of photovoltaic panels, which convert sunlight directly into electricity, or of mirrors, 站内大部分的空间被光伏太阳能板或和定向反射镜所占据。前者能将光能干脆转换为电能;后者会将太阳热折射到锅炉, which direct it towards a boiler, in order to raise steam and drive a generator. 利用锅炉将水加热成蒸汽,驱动发电机组工作,达到热能
6、转化为电能的目的。 这篇阅读材料还有MP3音频哦!下载>>传送门 The space these arrays occupy could often be used for other purposes. 这些整齐排列的面板和镜身所占的区域通常能用于其它用途。 Two researchers from the Massachusetts Institute of Technology have now devised a better and more compact way of laying out arrays of mirrors. 麻省理工学院的两位探讨员就找出了更好的方
7、法布置定向反射镜排列,不仅能节约出更多的空间,还能提高发电效率。 Slightly to their chagrin, however, and somehow appropriately, 然而,有点儿让他们懊恼的是, they found when they had done the calculations that sunflowers had got there first. 他们计算出的和向日葵花盘型花序上所排列的,大致相同。 Alexander Mitsos and Corey Noone started with the observation that existing co
8、ncentrated solar-power plants, Alexander Mitsos和Corey Noone这两位探讨员先从视察运行中的集中型太阳能发电厂入手。 as those which drive boilers are known, usually have their mirrors arranged in a way that resembles the seating in a cinema. 如大家所知,这些发电厂用太阳能驱动锅炉做功产生热量。通常定向反射镜的支配布置与电影院座椅位置如出一辙。 The mirrors are placed in concentric
9、semicircles facing a tower, on top of which the boiler and the turbine sit. 高塔处于荧屏所在的中心位置,全部的定向反射镜则以高塔为圆心,呈半圆形分布。 That arrangement, however, sometimes results in the mirrors shading each other as the sun's position in the sky changes, 随着一天中太阳在天空中位置的变换,镜身间会出现相互遮挡的问题。 even though the mirrors are u
10、sually attached to robotic arms that track the sun as it moves. 即使厂家通常会在镜身后部安装能随太阳位置变换而相应变换的机械手臂,但这一问题还是无法解决。 According to their report in Solar Energy, Dr Mitsos and Mr Noone found that they could do better. 据他们在太阳能杂志上发表的文章称,两位探讨员认为能有方法解决这一难题。 They divided each of the mirrors in a real power plant,
11、 PS10, in southern Spain into about 100 pieces. 在一家位于西班牙南部的发电站,PS10中,他们把每一片定向反射镜的平面面积分为差不多100块。 They then plugged each of those pieces into a computer model that calculated all of the energy losses 然后将每一片镜身上的这100多块面积里产生的吸热数据接入电脑,通过电脑程序计算出能量损失总和。 by noting points where mirrors were not optimally orie
12、nted to the sun and places where they hindered one another by blocking incoming or reflected rays. 这包括镜身没能直对太阳造成的损失,以及镜身位置因相互遮挡使折射光线受阻或反射到锅炉的光线受阻时造成的损失。 It then rejigged them into a better arrangement. 然后再依据数据重新对镜身进行排列组合。 Fermat's conjecture 费马螺线魔力 previous efforts have been directed mainly at s
13、topping the mirrors shading each other, which tends to mean spreading them out. 在此之前,人们做出了种.种努力,但总是在镜身相互遮挡这一问题上手足无措。而对此常会采纳的是绽开布局,增加排列面积来避开这种状况出现。 Dr Mitsos and Mr Noone also wanted to save space. 而两位探讨员还想节约面积。 In trying to do so they stumbled on an unusual arrangement that had the desired effect. 为
14、此费尽心机之际,他们无意中发觉有一种特别规的排列布局有很好的效果。 When they showed this layout to a third researcher, Manuel Torrilhon of Aachen University in Germany, 他们将这种布局支配展示给另一位探讨者,德国亚琛工业高校的Manuel Torrilhon。 he recognised the spiral patterns within it, and this prompted the trio to test a design specifically modelled on natu
15、re. 后者认为这种设计中有螺线存在,这促使三位探讨者以向日葵花盘型花序为蓝本细致测试设计。 That design was a pattern known as a Fermat spiral, in which each element is set at a constant angle of 137 to the previous one. 他们采纳的设计即费马螺线。即每一个圆在之前一个圆旋转角度为137度时,折线回旋螺线。 It is most familiar as the arrangement of the florets that make up a sunflower he
16、ad. 这一排列布置与向日葵花的盘型花序纹路如出一辙。 更多双语文章 点击这里 When the three researchers programmed their model to arrange PS10's mirrors in front of the tower in a segment from such a spiral, 三位探讨者根据安排支配PS10发电厂的镜身位置,在高塔前,将定向反射镜呈部分费马螺线状布局。 they both improved the efficiency of the collection process and saved space. 结
17、果显示在汲取太阳热量的过程中,效率得以提高,占地面积削减。 The improvement in efficiency was, admittedly, quite small, 诚然,效率提高特别有限, but the space saving was significantalmost 16%. 而空间节约面积却很高,削减近16%。 If solar power is to make up much of the world's electricity output in future, as supporters of alternative energy hope it wil
18、l, 假如太阳能如可替代能源支持者所希望的一那样,在将来成为世界电力的重要来源, a lot of land will be needed for the power stations. 那么太阳能发电站势必将须要占据更大的面积。 Reducing that requirement by a sixth, as this discovery promises, would be a big gain. 假如能像此次探讨所发觉的那样,有希望将定向反射镜所占地面积削减六分之一,那么这将是一个巨大的进步。 It would also show that if you look hard enough
- 配套讲稿:
如PPT文件的首页显示word图标,表示该PPT已包含配套word讲稿。双击word图标可打开word文档。
- 特殊限制:
部分文档作品中含有的国旗、国徽等图片,仅作为作品整体效果示例展示,禁止商用。设计者仅对作品中独创性部分享有著作权。
- 关 键 词:
- 如何 提高 GRE 阅读 分数 范文
限制150内