【导语】以下是小编为大家准备的feature的例句是什么(共5篇),供大家参考借鉴,希望可以帮助到有需要的朋友。
篇1:feature的例句是什么
例句
More complex sentence types featured advanced-level dialogues.高年级课程中的`对话以句子类型更为复杂为特点。
Round-the-clock service features this store.昼夜服务是这个商店的特色。
This film features John Smith.约翰·史密斯主演了这部影片。
The magazine is featuring his articles.该杂志正在特载他的文章。
The newspaper featured the story of the murder.该报以显著地位报道谋杀案。
The show featured dogs of every description.展览会中展示了各式各样的狗。
We found the father featured in the daughter.我们发现此女酷似其父。
篇2:feature的例句
Big cities feature subways.
地铁是大城市的特点。
As you recall, an adaptation is any feature.
正如你所记得的,适应性是任何特征。
This feature is different from many fine arts.
这一特性有别于众多美术品。
篇3:feature作动词的例句
feature可以用作动词
名词feature的意思是“特色,特征”,转化为动词作“以…为特色,是…的'特色”解,用作及物动词,接名词或代词作宾语。
feature作“占重要位置”解时,常用作不及物动词,其后接介词in,表示“在…中担任主角,占重要地位或起重要作用”。
feature还可作“刊载,展出”解,用作及物动词,接名词或代词作宾语。
feature用作动词的用法例句
This restaurant seems to feature vegetarian dishes.这家餐厅似乎以素菜为其特色。
Jazz and Blues feature prominently in the magazine.爵士和蓝调在杂志中占重要篇幅。
feature用作动词的用法例句
Jazz and Blues feature prominently in the magazine.爵士和蓝调在杂志中占重要篇幅。
篇4:My Feature
My Feature
Let me tell you what I will be when I grow up. I think languages are the most important tools of communication among people. Each country's languages, which are different, are interesting. So I want to be a translator. Since I was a child, I have learned many kinds of languages. I like to make friends with people from other countries. If I can speak a lot of languages, I will have a lot of friends. I don't think being a translator is very easy. It must be very hard. But I want to try! So I'm studying English now. I want to be a translator in Japan. It's my dream and I believe I can do it.篇5:Spatial structure and scale feature
Spatial structure and scale feature of the atmospheric pollution source impact of city agglomeration
The spatial structure and multi-scale feature of the atmospheric pollution influence domain of Beijing and its peripheral areas (a rapidly developed city agglomeration) is dissected and analyzed in this paper on the basis of the atmospheric pollution dynamic-chemical process observation data of the urban building ensemble boundary layer of the Beijing City Air Pollution Observation Experiment (BECAPEX) in winter (February) and summer (August) 2003, and relevant meteorological elements and satellite retrieval aerosol optical depth (AOD), etc. comprehensive data with the dynamic-statistical integrated analysis of “point-surface” spatial structure. Results show that there existed significant difference in the contribution of winter/summer different pollution emission sources to the component character of atmospheric pollution, and the principal component analysis (PCA) results of statistical model also indicate that SO2 and NOX dominated in the component structure of winter aerosol particle; instead, CO and NOX dominated in summer. Surface layer atmospheric dynamic and thermal structures and various pollutant species at the upper boundary of building ensembles at urban different observational sites of Beijing in winter and summer showed an “in-phase” variation and its spatial scale feature of “influence domain”. The power spectrum analysis (PSA) shows that the period spectrum of winter/summer particle concentration accorded with those of atmospheric wind field: the longer period was dominative in winter, but the shorter period in summer, revealing the impact of the seasonal scale feature of winter/summer atmospheric general circulation on the period of atmospheric pollution variations. It is found that from analyzing urban area thermal heterogeneity that the multiscale effect of Beijing region urban heat island (UHI) was associated with the heterogeneous expansion of tall buildings area. In urban atmospheric dynamical and thermal characteristic spatial structures, the turbulent scale feature of the urban boundary layer (UBL) of architectural complexes had important impact on the multi-scale feature of urban atmospheric pollution. The comprehensive analyses of the variational analysis field of Moderate Resolution Imaging Spectroradiometer (MODIS) AOD-surface PM10 under the condition of clear sky and the correlation resultant wind vector field for pollution source-tracing suggest that the emission sources for winter Beijing atmospheric pollution aerosols particle might be remotely traced to the south peripheral greater-scale spatial range of Hebei, Shandong, Tianjin, etc., and the spatial distribution of the high value area of AOD was associated with that of the high value area of resident family number (heating surface source). The backward trajectory feature of winter/ summer air particles exhibits analogous multi-scale feature, and depicts the difference in the scale feature of the pollution sources spatial distribution in different seasons. The peripheral source trajectory paths of urban atmospheric pollution (UAP) mainly come from the fixed industrial surface source or heating surface source in the outskirt of Beijing, and the diffusion and transport distance of peripheral sources in winter is larger than one in summer. The above conclusions depict the multi-scale spatial influence domain and seasonal features caused by UAP source influence and atmospheric dynamical structure. The high value area of the winter Total Ozone Mapping Spectrometer (TOMS) AOD lay in the Beijing region and its south peripheral area, an S-N zonal pattern, which reflects the dynamical effect of peripheral topographic pattern on the diffusion of regional scale atmospheric pollution sources. Study suggests that the extent of winter atmospheric pollution within the “valley” megarelief in Beijing and periphery was close related with the pollution emission sources of the south peripheral area; and the significant “anti-phase” variation feature of winter AOD and sunshine duration in Beijing and its peripheral areas, and regional scale correlation of low cloud cover, fog days, and aerosols reflects the local climatic effect of aerosol influence in this region. Besides, analysis of the impacts of atmospheric dry/wet deposition distributions within a valley-scale on the regional water body of Miyun reservoir also reveals the possible influence of the multi-scale spatial structure of summer water, soil and atmospheric pollution sources on the water quality of Miyun reservoir.
作 者:XU Xiangde ZHOU Xiuji SHI Xiaohui 作者单位:State Key Laboratory of Severe Weather, Chinese Academy of Meteorological Sciences, Beijing 100081, China 刊 名:中国科学D辑(英文版) SCI英文刊名:SCIENCE IN CHINA SERIES D(EARTH SCIENCES) 年,卷(期):2005 48(z2) 分类号:P4 关键词:atmospheric pollution source contribution rate boundary layer structure multi-scale backward trajec- tory correlation vector climatic effect interaction of water soil and atmosphere★英语例句
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