kinetics
简明释义
英[kɪˈnetɪks;kaɪˈnetɪks]美[kɪˈnetɪks;kaɪˈnetɪks]
n. 反应动力学;动力学;运动学
英英释义
单词用法
反应动力学 | |
化学动力学 |
同义词
反义词
| 静力学 | Statics is the branch of mechanics that deals with bodies at rest. | 静力学是处理静止物体的力学分支。 | |
| 静止 | In physics, rest refers to the state of an object when it is not in motion. | 在物理学中,静止指的是物体不在运动状态时的状态。 |
例句
1.The apparent steady state kinetics of the aminoacylation reaction catalyzed by LeuRS at the participation of some RE 3+ was studied.
对部分稀土离子参与下LeuRS催化的的氨酰化反应表观稳态动力学性质进行了研究。
2.We often infer molecular mechanisms based on kinetics.
我们通常从动理学中推断出分子反应机制。
3.We also use kinetics to describe an enormous range of time scales.
我们同样用动理学结果来描述,很大的反应的时间尺度。
4.So now the kinetics are quite different.
现在动理学就完全不一样了。
5.The neural networks system is a highly complicated nonlinear kinetics system.
神经网络系统是一个高度复杂的非线性动力学系统。
6.Kinetics is really a very different kind of topic.
动理学是一个很不一样的问题。
7.But it turns out, if you raise the temperature, kinetics is wonderful in terms of the temperature dependence.
但是如果你提高温度,动力学有很好的温度依赖关系。
8.The study of chemical reactions often involves understanding the reaction kinetics.
化学反应的研究通常涉及理解反应的动力学。
9.Researchers are studying the kinetics of climate change to predict future impacts.
研究人员正在研究气候变化的动力学以预测未来的影响。
10.In physics, kinetics helps explain the forces acting on a moving object.
在物理学中,动力学有助于解释作用于运动物体的力。
11.The kinetics of drug absorption can greatly affect its efficacy.
药物吸收的动力学可以极大地影响其有效性。
12.Understanding the kinetics of enzymes is crucial for biochemistry.
理解酶的动力学对生物化学至关重要。
作文
Kinetics is a branch of science that deals with the forces and motions involved in the movement of objects. It plays a crucial role in various fields, including physics, chemistry, and biology. Understanding kinetics (动力学) allows scientists and engineers to predict how systems will behave under different conditions, which is essential for designing safe structures, developing new materials, and even understanding biological processes. For instance, in the field of chemistry, kinetics (动力学) helps explain the rates of chemical reactions and the factors that influence these rates. By studying the kinetics (动力学) of a reaction, chemists can determine how temperature, concentration, and catalysts affect the speed at which reactants are converted into products. This knowledge is vital for industries that rely on chemical manufacturing, as it helps optimize processes and reduce costs.In physics, kinetics (动力学) is essential for analyzing motion. It involves understanding the relationship between motion and the forces acting upon an object. For example, when a car accelerates, the kinetics (动力学) of the vehicle determines how quickly it can reach a certain speed based on the force applied by the engine and the resistance from friction and air drag. Engineers use principles of kinetics (动力学) to design vehicles that are not only fast but also safe and efficient.Biologically, kinetics (动力学) is vital for understanding how enzymes work within living organisms. Enzymes are biological catalysts that speed up chemical reactions in cells. The study of enzyme kinetics (动力学) helps scientists understand how different factors, such as pH and temperature, influence the rate of these reactions. This knowledge is crucial for drug development, as it can help identify how medications interact with enzymes in the body.In conclusion, kinetics (动力学) is a fundamental concept that transcends various scientific disciplines. Its applications are vast and impactful, shaping our understanding of the natural world and driving innovation in technology and medicine. Whether it's predicting the behavior of a chemical reaction, analyzing the motion of a car, or understanding the function of enzymes, kinetics (动力学) provides the framework necessary for scientific advancement. As we continue to explore the intricacies of our universe, the importance of kinetics (动力学) will only grow, highlighting its significance in both theoretical research and practical applications.
