charge; electric charge
简明释义
电荷
英英释义
例句
1.Static electricity is caused by an imbalance in electric charge (电荷).
静电是由于电荷(electric charge)的不平衡引起的。
2.You can measure the charge (电荷) of a capacitor with a multimeter.
你可以使用万用表测量电容器的电荷(charge)。
3.The charge (电荷) of an electron is negative.
电子的电荷(charge)是负的。
4.The battery has a low charge (电荷), so it needs to be recharged.
电池的电荷(charge)很低,所以需要充电。
5.When you rub a balloon on your hair, it gains a negative electric charge (电荷).
当你在头发上摩擦气球时,它会获得负的电荷(electric charge)。
作文
In the world of physics, the concept of charge; electric charge plays a crucial role in understanding the behavior of matter. Electric charge is a fundamental property of particles, which can be either positive or negative. This property is responsible for the electromagnetic force, one of the four fundamental forces of nature. The interaction between charged particles leads to various phenomena that we observe in our daily lives, from static electricity to complex electrical circuits.When we talk about charge; electric charge, we often refer to two types: positive and negative. Protons carry a positive charge, while electrons carry a negative charge. Neutrons, on the other hand, are neutral and do not have any charge. The balance between these charges in an atom determines its overall charge. If an atom has more protons than electrons, it becomes positively charged, and if it has more electrons than protons, it becomes negatively charged.One of the most fascinating aspects of charge; electric charge is how it influences the forces between objects. Like charges repel each other, while opposite charges attract. This principle is evident in everyday experiences, such as when you rub a balloon on your hair and it sticks to the wall. The friction causes the transfer of electrons, resulting in a charged balloon that can attract neutral objects.The concept of charge; electric charge is also essential in understanding electricity. When we generate electric current, we are essentially moving charged particles through a conductor. This movement of electrons creates a flow of electricity that powers our homes and devices. The study of electric charge has led to significant technological advancements, including the development of batteries, capacitors, and various electronic components.Moreover, the applications of charge; electric charge extend beyond simple circuits. In modern technology, we utilize the principles of electric charge in numerous ways. For instance, in medical imaging, charged particles are used in techniques like PET scans to visualize bodily functions. Similarly, in telecommunications, the manipulation of electric charge allows for the transmission of information over vast distances.In conclusion, the understanding of charge; electric charge is fundamental to both physics and technology. It explains the interactions between particles, the nature of electricity, and the operation of countless devices we rely on every day. As we continue to explore the universe, the principles of electric charge will undoubtedly lead to new discoveries and innovations, shaping our future in ways we cannot yet imagine.
在物理学的世界中,电荷;电荷的概念在理解物质的行为方面起着至关重要的作用。电荷是粒子的基本属性,可以是正电或负电。这一特性负责电磁力,这是自然界四种基本力之一。带电粒子之间的相互作用导致我们在日常生活中观察到的各种现象,从静电到复杂的电路。当我们谈论电荷;电荷时,通常指的是两种类型:正电和负电。质子带有正电荷,而电子带有负电荷。中子则是中性的,不带电。原子中这些电荷的平衡决定了它的整体电荷。如果一个原子中的质子多于电子,它就会变成正电荷;如果电子多于质子,它就会变成负电荷。电荷;电荷的一个最迷人的方面是它如何影响物体之间的力。同种电荷相互排斥,而异种电荷相互吸引。这一原理在日常体验中显而易见,例如,当你用气球摩擦头发时,它会粘在墙上。摩擦导致电子转移,形成带电的气球,可以吸引中性物体。电荷;电荷的概念在理解电力方面也至关重要。当我们产生电流时,本质上就是在导体中移动带电粒子。这些电子的运动产生了电流,为我们的家和设备提供动力。对电荷的研究已导致重大的技术进步,包括电池、电容器和各种电子元件的发展。此外,电荷;电荷的应用超出了简单的电路。在现代技术中,我们以多种方式利用电荷的原理。例如,在医学成像中,带电粒子用于PET扫描等技术,以可视化身体功能。类似地,在电信中,电荷的操控使信息能够在广阔的距离上传输。总之,理解电荷;电荷对物理学和技术都是基础。它解释了粒子之间的相互作用、电力的性质以及我们每天依赖的无数设备的运作。随着我们继续探索宇宙,电荷的原理无疑将导致新的发现和创新,以我们无法想象的方式塑造我们的未来。
