properties
简明释义
n. <正式>房屋及周围的土地;性质,性能;(舞台或电影的)道具(prop 的旧时用语)(property 的复数)
英英释义
Characteristics or attributes of something that can be observed or measured. | 可以观察或测量的事物的特征或属性。 |
一块房地产,例如土地或建筑物。 |
单词用法
流变性能;流变特性;流变性质;龄性 | |
功能性质 |
同义词
反义词
| 损害 | The impairments in the material affected its overall performance. | 材料中的损害影响了其整体性能。 | |
| 缺陷 | 系统中的缺陷导致了几次故障。 | ||
| 缺陷 | They discovered several flaws in the design that needed to be fixed. | 他们发现设计中有几个缺陷需要修复。 |
例句
1.Its location in the table would tell you what properties it should have.
它在表中的位置会告诉你它应该有什么属性。
2.The properties of this clear sea ice were very similar to the ice from the green iceberg.
这种透明的海冰的性质与绿色冰山上的冰块非常相似。
3.Genes are replicators that pass on information about properties and characteristics of organisms.
基因是传递生物属性和特征信息的复制因子。
4.Different species have different influences on soil formation and soil properties.
不同的树种对土壤的形成和性质有不同的影响。
5.Various proposals were put forth to arrange the elements into groups based on similarities in chemical and physical properties.
人们提出了各种建议,根据化学和物理性质的相似性把这些元素分组。
6.This rule is an exception to the above rule of not setting mediation properties during this phase.
本条规则是上述要求不在此阶段设置中介属性的那条规则的一个例外。
7.It has two panes, with the properties view playing an important role in the lower pane.
它有两个窗格,其中下面的窗格具有属性视图并起着重要的作用。
8.Glucose and fructose have the same chemical formula but have very different properties.
葡萄糖和果糖具有相同的化学分子式但有很不同的特性。
9.We can say that the properties of an ecosystem are more stable than the individual organisms that compose the ecosystem.
可以说,生态系统的特性要比组成生态系统的单个生物体性质更加稳定。
10.The properties of a good leader include empathy and decisiveness.
优秀领导者的特质包括同理心和果断。
11.In programming, we can define the properties of an object.
在编程中,我们可以定义一个对象的属性。
12.Real estate agents often showcase properties to potential buyers.
房地产经纪人通常向潜在买家展示房产。
13.The properties of this material make it ideal for construction.
这种材料的特性使其非常适合建筑。
14.The chemical properties of water are essential for life.
水的性质对生命至关重要。
作文
In the field of science, particularly in chemistry and physics, the term properties (性质) is frequently used to describe the characteristics that define a substance. These properties (性质) can be categorized into two main types: physical properties (性质) and chemical properties (性质). Understanding these properties (性质) is essential for scientists as they conduct experiments and formulate theories. Physical properties (性质) refer to characteristics that can be observed or measured without changing the substance's chemical identity. Examples include color, melting point, boiling point, density, and solubility. For instance, water has a boiling point of 100 degrees Celsius at sea level. This physical property (性质) allows us to understand how water behaves under different temperature conditions. Scientists often rely on these properties (性质) to identify substances and predict their behavior in various situations.On the other hand, chemical properties (性质) describe a substance's ability to undergo chemical changes and form new substances. These include reactivity with acids or bases, flammability, and oxidation states. For example, iron has the chemical property (性质) of rusting when exposed to moisture and oxygen. This process transforms iron into iron oxide, demonstrating how understanding chemical properties (性质) is crucial for predicting how materials will behave over time.In addition to scientific contexts, the concept of properties (性质) also applies to everyday life. When purchasing a house, for instance, one must consider the properties (性质) of the building itself, such as its size, layout, and location. These properties (性质) significantly influence the value of the property and the quality of life for its inhabitants. Similarly, when choosing a car, potential buyers evaluate various properties (性质) like fuel efficiency, safety features, and performance metrics.Moreover, in the realm of real estate, the properties (性质) of a neighborhood, including crime rates, school quality, and proximity to amenities, play a critical role in determining property values and desirability. Buyers often conduct extensive research on these properties (性质) before making significant investments.In conclusion, the term properties (性质) encompasses a wide range of meanings across different disciplines. In science, it helps us understand the fundamental characteristics of substances, while in everyday life, it guides our decisions in purchasing and valuing items. By recognizing the importance of properties (性质), we can make informed choices that affect our lives, whether in the laboratory or in our homes. Thus, a comprehensive understanding of properties (性质) is vital for both scientific inquiry and practical decision-making.
在科学领域,特别是在化学和物理学中,术语properties(性质)常用于描述定义物质的特征。这些properties(性质)可以分为两大类:物理properties(性质)和化学properties(性质)。理解这些properties(性质)对科学家进行实验和制定理论至关重要。物理properties(性质)指的是可以观察或测量而不改变物质化学身份的特征。例子包括颜色、熔点、沸点、密度和溶解度。例如,水在海平面下的沸点为100摄氏度。这个物理property(性质)使我们能够理解水在不同温度条件下的行为。科学家们常常依赖这些properties(性质)来识别物质并预测其在各种情况下的行为。另一方面,化学properties(性质)描述了物质发生化学变化并形成新物质的能力。这些包括与酸或碱的反应性、可燃性和氧化态。例如,铁具有在潮湿和氧气环境中生锈的化学property(性质)。这一过程将铁转变为氧化铁,展示了理解化学properties(性质)对于预测材料随时间变化的行为的重要性。除了科学背景外,properties(性质)的概念也适用于日常生活。例如,在购买房屋时,人们必须考虑建筑本身的properties(性质),如大小、布局和位置。这些properties(性质)显著影响房产的价值和居住者的生活质量。同样,在选择汽车时,潜在买家评估各种properties(性质),如燃油效率、安全功能和性能指标。此外,在房地产领域,社区的properties(性质),包括犯罪率、学校质量和便利设施的接近程度,对确定房产价值和吸引力起着至关重要的作用。买家通常在进行重大投资之前,会对这些properties(性质)进行广泛研究。总之,术语properties(性质)在不同学科中涵盖了广泛的含义。在科学中,它帮助我们理解物质的基本特征,而在日常生活中,它指导我们在购买和评估物品时做出决策。通过认识到properties(性质)的重要性,我们可以在实验室或家庭中做出影响我们生活的明智选择。因此,全面理解properties(性质)对于科学探究和实际决策至关重要。
