bursting charge

简明释义

爆裂药

英英释义

例句

1.When testing explosives, the scientist measured the effectiveness of the bursting charge under various conditions.

在测试炸药时，科学家测量了不同条件下爆炸药的有效性。

2.In military applications, the bursting charge is designed to maximize damage to enemy structures.

在军事应用中，爆炸药旨在最大化对敌方结构的破坏。

3.The bursting charge in this bomb is designed to create a shockwave that can be felt miles away.

这个炸弹中的爆炸药旨在产生一个可以在数英里外感受到的冲击波。

4.The engineer explained that the bursting charge in the detonator is crucial for a controlled explosion.

工程师解释说，导火索中的爆炸药对于控制爆炸至关重要。

5.The safety protocols ensure that the bursting charge is handled with extreme caution.

安全协议确保爆炸药的处理极为小心。

作文

The concept of a bursting charge is often associated with the field of physics, particularly in the context of explosives and energy release. When we think about a bursting charge, it evokes images of a sudden release of energy that can have both constructive and destructive consequences. This duality is what makes the study of bursting charge so fascinating and essential in various applications, from engineering to environmental science.In engineering, for instance, understanding the dynamics of a bursting charge is crucial for designing safe structures. Engineers need to calculate the potential impact of explosive forces to ensure that buildings and bridges can withstand unexpected blasts. This involves complex calculations and simulations to predict how materials will respond under extreme conditions. The knowledge gained from studying bursting charge can lead to innovations in safety measures, such as blast-resistant materials and designs that can absorb shock waves.Moreover, the military applications of bursting charge are perhaps the most well-known. Explosives are designed to create a specific type of bursting charge to achieve maximum impact on a target. The effectiveness of these charges is measured not just by their size but by their design and the materials used to create them. Scientists and military experts work tirelessly to improve the efficiency of bursting charge systems to ensure that they can accomplish their missions while minimizing collateral damage.On the other hand, the environmental implications of bursting charge cannot be overlooked. The use of explosives in construction, mining, and demolition can lead to significant disturbances in local ecosystems. Understanding the effects of a bursting charge on the surrounding environment is crucial for mitigating harm. Environmental scientists study how the energy released from a bursting charge affects soil, water, and air quality, and they develop strategies to minimize negative impacts.Beyond the technical aspects, the term bursting charge also carries emotional weight. In times of conflict, the use of explosives can lead to devastating consequences for communities. The aftermath of a bursting charge can leave behind not just physical destruction but also psychological scars on those who experience it. Understanding the human cost of such energy releases is vital for policymakers and humanitarian organizations working towards peace and recovery.In conclusion, the term bursting charge encompasses a wide range of meanings and implications across different fields. From engineering to environmental science and military applications, the study of bursting charge is critical for advancing our understanding of energy release and its consequences. As we continue to explore this concept, it is essential to balance innovation with responsibility, ensuring that the power of bursting charge is harnessed for the greater good, rather than causing harm. By doing so, we can appreciate the complexity of this term and its significance in our world today.

‘爆炸性电荷’这一概念通常与物理学领域相关，特别是在爆炸物和能量释放的背景下。当我们想到‘爆炸性电荷’时，它会唤起突发能量释放的图像，这种释放可能具有建设性和破坏性的后果。这种二元性使得对‘爆炸性电荷’的研究变得如此迷人，并且在各个应用中都至关重要，从工程到环境科学。例如，在工程领域，理解‘爆炸性电荷’的动态对于设计安全结构至关重要。工程师需要计算爆炸力的潜在影响，以确保建筑物和桥梁能够承受意外的爆炸。这涉及复杂的计算和模拟，以预测材料在极端条件下的反应。从研究‘爆炸性电荷’中获得的知识可以导致安全措施的创新，例如抗爆材料和能够吸收冲击波的设计。此外，‘爆炸性电荷’在军事应用中可能是最为人知的。爆炸物被设计成产生特定类型的‘爆炸性电荷’，以最大程度地影响目标。这些电荷的有效性不仅取决于其大小，还取决于其设计和用于制造它们的材料。科学家和军事专家不懈努力，提高‘爆炸性电荷’系统的效率，以确保他们能够完成任务，同时将附带损害降到最低。另一方面，‘爆炸性电荷’的环境影响也不容忽视。在建筑、采矿和拆除中使用爆炸物可能会对当地生态系统造成重大干扰。理解‘爆炸性电荷’对周围环境的影响对于减轻伤害至关重要。环境科学家研究从‘爆炸性电荷’释放的能量如何影响土壤、水和空气质量，并制定策略以最小化负面影响。除了技术方面，‘爆炸性电荷’一词还承载着情感的分量。在冲突时期，爆炸物的使用可能会给社区带来毁灭性的后果。‘爆炸性电荷’的后果不仅会留下物理上的破坏，还会在经历过的人们身上留下心理创伤。理解这种能量释放对人类的代价，对于致力于和平与恢复的政策制定者和人道主义组织至关重要。总之，‘爆炸性电荷’这一术语涵盖了不同领域广泛的含义和影响。从工程到环境科学以及军事应用，对‘爆炸性电荷’的研究对于推动我们对能量释放及其后果的理解至关重要。随着我们继续探索这一概念，平衡创新与责任至关重要，确保‘爆炸性电荷’的力量被用于更大的利益，而不是造成伤害。通过这样做，我们可以欣赏这个术语的复杂性及其在当今世界的重要性。