biophysical

biophysical的音标为：[ˌbaɪəʊfɪˈzɪʃəl] ，中文翻译为"生物物理的"。

速记技巧：biophysical 可以根据其单词构成进行速记，其中bio-表示“生物”，physical表示“物理的”，整体记忆有助于快速记忆。

Biophysical这个词来源于希腊语和物理学，表示生物物理的。这个词通常用于描述生物和物理之间的相互作用，以及生物系统的物理特性。

变化形式：Biophysical的词性变化包括名词（biophysical properties）、形容词（biophysical）和动词（biophysically）。

相关单词：

1. Biochemistry - 生物学和化学的结合，研究生物体内的化学过程。

2. Biophysics - 生物物理学，研究生物系统和物理学的交叉学科。

3. Biophysical Measurement - 生物物理测量，用于测量生物系统的物理特性。

4. Biophysical Fitness - 生物物理健康，指生物系统的物理特性和健康状况。

5. Biophysical Interaction - 生物物理相互作用，指生物系统和物理系统之间的相互作用。

6. Biophysical Dynamics - 生物物理动态，指生物系统的动态特性和物理过程。

7. Biophysical Environment - 生物物理环境，指影响生物系统的物理环境因素。

8. Biophysical Response - 生物物理反应，指生物系统对物理因素的响应和适应。

9. Biophysical Thermodynamics - 生物物理热力学，研究生物系统和热力学的交叉学科。

10. Biophysical Modeling - 生物物理建模，用于模拟和预测生物系统的物理特性。

以上这些单词都是与biophysical相关的，涵盖了生物学、物理学、测量、健康、相互作用、动态、环境、反应和建模等多个方面。

常用短语：

1. biophysical properties

2. biophysical analysis

3. biophysical measurement

4. biophysical response

5. biophysical condition

6. biophysical stress

7. biophysical impact

例句：

1. The biophysical properties of soil affect its water retention capacity.

2. The biophysical analysis of the ecosystem identified key factors influencing its sustainability.

3. The biophysical measurement of oxygen consumption provides an accurate measure of physical activity.

4. The biophysical response to climate change varies from species to species.

5. The biophysical condition of the forest is crucial for its ecological function.

6. The biophysical stress of prolonged sitting can have negative effects on health.

7. The biophysical impact of deforestation has long-term consequences for the environment.

英文小作文：

Biophysics is the study of the physical properties and interactions of living systems, and it plays a crucial role in understanding the interrelationships between the physical and biological worlds. Biophysics encompasses a wide range of disciplines, including cell biology, molecular biology, and physics, and it is essential for understanding how living systems function and respond to their environment.

One area of biophysics that is particularly exciting is the study of the mechanical properties of tissues and organs. Understanding how tissues respond to mechanical forces can help us better understand diseases such as cancer and heart disease, as well as design more effective therapeutic interventions. Another area of biophysics that is gaining increasing attention is the study of energy transfer between molecules and cells, which plays a crucial role in many biological processes, including photosynthesis and cellular respiration. Understanding this process can lead to new methods of treating diseases and enhancing the efficiency of energy production.

Biophysics is also essential for understanding the impact of climate change on living systems. Understanding how organisms respond to changes in temperature, humidity, and atmospheric pressure can help us develop more effective strategies for mitigating the effects of climate change and ensuring sustainable development. In conclusion, biophysics is an essential discipline for understanding the complex interactions between the physical and biological worlds, and it holds great promise for improving our understanding of living systems and developing more effective interventions to address pressing challenges.