aggregate momentum

简明释义

总动量;

英英释义

例句

1.The aggregate momentum 整体动量 of the movement has been growing steadily over the past few months.

这个运动的整体动量在过去几个月里稳步增长。

2.By collaborating with other departments, we can create a stronger aggregate momentum 整体动量 for our initiatives.

通过与其他部门合作，我们可以为我们的计划创造更强的整体动量。

3.The company's aggregate momentum 整体动量 in sales increased significantly after the new marketing strategy was implemented.

在实施新的营销策略后，公司的整体动量在销售方面显著增加。

4.In sports, maintaining aggregate momentum 整体动量 can be crucial for winning matches.

在体育比赛中，保持整体动量对赢得比赛至关重要。

5.The team managed to build an aggregate momentum 整体动量 that propelled them to success in the final stages of the project.

团队成功地建立了一个整体动量，这推动他们在项目的最后阶段取得成功。

作文

In the realm of physics and engineering, the concept of aggregate momentum plays a crucial role in understanding the motion of objects. Momentum, defined as the product of an object's mass and its velocity, is a vector quantity that signifies the amount of motion an object possesses. When we consider multiple objects in a system, the aggregate momentum refers to the total momentum of all the objects combined. This principle is not only fundamental in theoretical physics but also has practical applications in various fields such as sports, vehicle collisions, and even financial markets.To illustrate this concept, let us consider a simple example involving two colliding cars at an intersection. Car A has a mass of 1,000 kg and is moving at a velocity of 20 m/s, while Car B has a mass of 800 kg and is traveling at a velocity of 15 m/s in the opposite direction. To find the aggregate momentum of this system, we calculate the momentum of each car separately. The momentum of Car A is 1,000 kg * 20 m/s = 20,000 kg·m/s, and the momentum of Car B is 800 kg * (-15 m/s) = -12,000 kg·m/s (the negative sign indicates the opposite direction).Now, by adding these two momenta together, we obtain the aggregate momentum: 20,000 kg·m/s + (-12,000 kg·m/s) = 8,000 kg·m/s. This total momentum will remain constant if no external forces act on the system, according to the law of conservation of momentum. This principle is essential for analyzing collisions and understanding how energy is transferred between objects during such events.Beyond physics, the idea of aggregate momentum can also be applied metaphorically to other areas of life. For instance, in the context of teamwork and collaboration, the combined efforts and contributions of individuals can lead to a greater overall impact than the sum of their individual actions. In this sense, the aggregate momentum of a team can drive projects forward and achieve goals more effectively.In the business world, understanding aggregate momentum can help companies gauge market trends and consumer behavior. By analyzing data from various sources, businesses can assess the overall momentum of their industry and make informed decisions about future strategies. This aggregated information allows companies to adapt to changing market conditions and maintain competitiveness.In conclusion, the concept of aggregate momentum is a powerful tool that transcends its scientific origins. Whether in the physical world or in metaphorical applications, understanding the total momentum of a system or group can provide valuable insights. It emphasizes the importance of collaboration, collective effort, and the interconnectedness of various elements within a system. As we navigate through different aspects of life, recognizing the significance of aggregate momentum can enhance our understanding and enable us to harness its potential for positive outcomes.

在物理学和工程学领域，aggregate momentum的概念在理解物体运动方面发挥着至关重要的作用。动量被定义为物体质量与其速度的乘积，是一个矢量量，表示物体所具有的运动量。当我们考虑一个系统中的多个物体时，aggregate momentum指的是所有物体合并后的总动量。这个原理不仅在理论物理中是基本的，而且在体育、车辆碰撞甚至金融市场等各个领域都有实际应用。为了说明这个概念，让我们考虑一个简单的例子，涉及两辆在交叉路口相撞的汽车。汽车A的质量为1000千克，速度为20米/秒，而汽车B的质量为800千克，速度为-15米/秒（负号表示相反方向）。要找到这个系统的aggregate momentum，我们分别计算每辆车的动量。汽车A的动量为1000千克*20米/秒=20000千克·米/秒，而汽车B的动量为800千克*(-15米/秒)=-12000千克·米/秒。现在，通过将这两个动量相加，我们得到了aggregate momentum：20000千克·米/秒+(-12000千克·米/秒)=8000千克·米/秒。如果没有外力作用于该系统，根据动量守恒定律，这个总动量将保持不变。这个原理对于分析碰撞和理解能量在此类事件中如何转移至关重要。超越物理学，aggregate momentum的概念也可以隐喻地应用于生活的其他领域。例如，在团队合作和协作的背景下，个人的共同努力和贡献可以比他们单独行动的总和产生更大的整体影响。从这个意义上讲，团队的aggregate momentum可以推动项目向前发展，更有效地实现目标。在商业世界中，理解aggregate momentum可以帮助公司评估市场趋势和消费者行为。通过分析来自不同来源的数据，企业可以评估其行业的整体动量，并就未来战略做出明智的决策。这些聚合的信息使公司能够适应不断变化的市场条件，保持竞争力。总之，aggregate momentum的概念是一个强大的工具，超越了其科学起源。无论是在物理世界还是在隐喻应用中，理解一个系统或群体的总动量可以提供有价值的见解。它强调了合作、集体努力的重要性，以及系统内各种元素之间的相互联系。当我们在生活的不同方面航行时，认识到aggregate momentum的重要性可以增强我们的理解，并使我们能够利用其潜力带来积极的结果。