abampere

abampere的音标是["æbəmɪpɪə]，意思是安[每]米。基本翻译是安培每米。速记技巧是利用谐音记忆法，可将abampere快速记作“啊爸爸陪妈妈”。

abampere这个词的英文词源可以追溯到物理学领域，它代表了一种电流单位，即安培（ampere）的倒数。

变化形式：复数形式为abampere，可以转化为binary abampere（二进制安培）和kilo abampere（千兆安培）。

相关单词：

ampere：这是abampere的来源，代表国际单位制中的电流单位。

milliampere：这是微安培的单位，用于描述小电流。

kiloampere-kilohm：这是千伏安和千欧姆的组合，用于描述电力设备的功率和阻抗。

ampere-meter：这是安培米，是电流和长度的单位组合，用于描述电导率。

ampere-second：这是安秒，是电流和时间的单位组合，用于描述电荷的量。

ampere-hour：这是安时，是电流和时间的单位组合，用于描述电池的容量。

abampere-bit：这是二进制位，用于描述数据传输速率。

binary abampere：这是二进制安培，用于描述二进制数据传输速率。

tera abampere：这是太兆安培，用于描述超大规模集成电路中的电流密度。

以上这些单词都与电流和电子学相关，反映了现代科技的发展和应用。同时，这些单词也体现了英语作为国际通用语言的广泛性和包容性。

常用短语：

1. ampere-hour (A·h)

2. milliampere-hour (mA·h)

3. ampere-turn (A·T)

4. volt-ampere (V·A)

5. milliampere (mA)

6. milliwatt (mW)

7. watt-hour (W·h)

双语例句：

1. The battery has a capacity of 100 ampere-hours.

2. The car battery is rated at 12 volts and can deliver 5 ampere-turns of current.

3. The motor is rated at 20 amperes continuous and 50 amperes peak.

4. The battery is discharging at a rate of 1 ampere while the motor is running.

5. The watt-hour meter measures the total amount of electricity used over a period of time.

6. The battery is draining at a rate of 5 milliampere per hour.

7. The motor draws 200 milliwatts of power when running at full speed.

英文小作文：

Electricity is a vital resource for modern life, and it flows through wires and circuits in the form of electrons, which are tiny particles that move back and forth between positive and negative charges. When we talk about electrical power, we often refer to the amount of energy that can be stored in a battery or generated by a generator, which is measured in terms of watt-hours, ampere-hours, and other units of measurement related to electricity and its flow through circuits.

In terms of practical applications, electricity is used to power everything from computers and cell phones to lights and motors, and it plays a crucial role in modern industrial and manufacturing processes. From simple household appliances to complex machinery and equipment, electricity is essential for keeping our world running smoothly and efficiently. As we continue to develop new technologies and invent new devices that require electrical power, it becomes increasingly important to understand the units of measurement used to measure electrical energy and how it flows through circuits to ensure that we are using it efficiently and effectively.