mutual excitation

简明释义

互激励

英英释义

例句

1.The researchers observed that the neurons exhibited mutual excitation, leading to enhanced signal transmission.

研究人员观察到神经元表现出相互激发，从而增强了信号传输。

2.In the context of social networks, mutual excitation can explain how trends rapidly spread among users.

在社交网络的背景下，相互激发可以解释趋势是如何在用户之间迅速传播的。

3.The theory of mutual excitation helps explain the synchronization of fireflies during mating season.

关于相互激发的理论有助于解释萤火虫在交配季节的同步现象。

4.During the experiment, the scientists noted that mutual excitation among the cells led to unexpected oscillations.

在实验过程中，科学家注意到细胞之间的相互激发导致了意想不到的振荡。

5.The model demonstrated that mutual excitation between different brain regions is crucial for coordinated movement.

该模型表明，不同脑区之间的相互激发对于协调运动至关重要。

作文

In the realm of neuroscience and psychology, the concept of mutual excitation plays a significant role in understanding how different neural circuits interact with each other. This phenomenon occurs when two or more neurons influence each other's activity, leading to an enhanced response. Essentially, mutual excitation can be seen as a form of positive feedback where the activation of one neuron leads to the activation of another, creating a network of interconnected responses that can amplify a particular signal or behavior.The implications of mutual excitation extend beyond mere neural interactions; they are also crucial in various cognitive processes such as learning, memory, and decision-making. For example, when we learn a new skill, certain neural pathways become activated. As these pathways engage in mutual excitation, they strengthen over time, making it easier for us to perform the skill without conscious effort. This is particularly evident in motor skills, where repeated practice results in more efficient neural connections.Moreover, mutual excitation is not limited to individual neurons but can also occur at the level of entire brain regions. Different areas of the brain communicate through excitatory signals, which facilitate complex behaviors and cognitive functions. For instance, during problem-solving tasks, the prefrontal cortex may engage in mutual excitation with the parietal lobe, leading to improved analytical thinking and spatial reasoning. This interconnectivity highlights the importance of collaboration between different brain regions in achieving higher cognitive performance.In addition to its role in healthy brain function, mutual excitation can also be observed in pathological conditions. Disorders such as epilepsy are characterized by abnormal patterns of neuronal excitation, where excessive mutual excitation can lead to seizures. Understanding the mechanisms behind this aberrant activity can provide insights into potential therapeutic approaches to manage such conditions.Furthermore, the concept of mutual excitation is not confined to biological systems. It can also be applied to social dynamics and group behavior. In social settings, individuals often influence each other's actions and emotions through a process akin to mutual excitation. For instance, in a brainstorming session, one person's enthusiasm can inspire others, leading to a collective surge of creativity and idea generation. This social mutual excitation underscores the importance of collaboration and interaction in fostering innovation and problem-solving.In conclusion, the concept of mutual excitation serves as a fundamental principle in both neuroscience and social interactions. By recognizing how different elements can influence and amplify each other, we gain a deeper understanding of complex systems, whether they be neural networks or social groups. As research continues to explore the intricacies of mutual excitation, we can expect to uncover even more about the interconnectedness of our brains and the ways in which we engage with one another in our daily lives.

在神经科学和心理学领域，互相激励的概念在理解不同神经电路如何相互作用方面起着重要作用。这种现象发生在两个或多个神经元相互影响彼此活动时，从而导致增强的反应。本质上，互相激励可以被视为一种正反馈形式，其中一个神经元的激活导致另一个神经元的激活，形成一个互联的响应网络，可以放大特定的信号或行为。互相激励的影响不仅限于神经交互；它们在各种认知过程中也至关重要，例如学习、记忆和决策。例如，当我们学习一项新技能时，某些神经通路会被激活。随着这些通路参与到互相激励中，它们随着时间的推移而变得更强，使我们更容易在没有意识努力的情况下执行该技能。这在运动技能中尤为明显，重复练习导致神经连接更高效。此外，互相激励不仅限于个别神经元，也可以在整个大脑区域的层面上发生。大脑的不同区域通过兴奋性信号进行交流，这有助于复杂的行为和认知功能。例如，在解决问题的任务中，前额叶皮层可能与顶叶进行互相激励，从而改善分析思维和空间推理。这种互联性突显了不同大脑区域之间合作在实现更高认知表现中的重要性。除了在健康大脑功能中的作用，互相激励还可以在病理条件中观察到。癫痫等疾病的特征是异常的神经兴奋模式，其中过度的互相激励可能导致癫痫发作。理解这种异常活动背后的机制可以为管理此类疾病提供潜在的治疗方法。此外，互相激励的概念并不局限于生物系统。它也可以应用于社会动态和群体行为。在社会环境中，个体常常通过类似于互相激励的过程相互影响彼此的行为和情感。例如，在头脑风暴会议中，一个人的热情可以激励其他人，从而导致集体创造力和创意生成的激增。这种社会互相激励强调了合作和互动在促进创新和解决问题中的重要性。总之，互相激励的概念作为神经科学和社会互动中的基本原则。通过认识到不同元素如何相互影响和放大，我们对复杂系统有了更深刻的理解，无论是神经网络还是社会群体。随着研究继续探索互相激励的复杂性，我们可以期待揭示更多关于我们大脑的互联性以及我们日常生活中如何彼此互动的方式。