arithmometer

简明释义

[ˌærɪθˈmɒmɪtə(r)][ˌærɪθˈmɑmɪtər]

n. 计数器(四则计算机)

英英释义

A mechanical device used for performing arithmetic calculations, such as addition, subtraction, multiplication, and division.

一种用于进行算术计算的机械装置,如加法、减法、乘法和除法。

单词用法

using an arithmometer

使用算术计

operating an arithmometer

操作算术计

arithmometer machine

算术计机器

mechanical arithmometer

机械算术计

同义词

calculator

计算器

I used a calculator to solve the math problems quickly.

我用计算器快速解决了数学问题。

adding machine

加法机

The adding machine was a popular tool in offices before computers became widespread.

在电脑普及之前,加法机是办公室中一种流行的工具。

computing device

计算设备

Modern computing devices can perform complex calculations in seconds.

现代计算设备可以在几秒钟内完成复杂的计算。

反义词

illogical

不合逻辑的

His argument was illogical and did not hold up under scrutiny.

他的论点不合逻辑,在审查下无法成立。

irrational

非理性的

Making an irrational decision can lead to negative consequences.

做出非理性的决定可能会导致负面后果。

例句

1.Control unit (controller) : control unit is composed of program arithmometer, instruction register and operation controller, ect.

控制器:控制器是由程序计数器、指令存放器跟操作控制器等组成。

2.Control unit (controller) : control unit is composed of program arithmometer, instruction register and operation controller, ect.

控制器:控制器是由程序计数器、指令存放器跟操作控制器等组成。

3.To solve the math problem, she relied on her trusty arithmometer.

为了解决数学问题,她依赖于她可靠的算数仪

4.Engineers often used an arithmometer to ensure precision in their calculations.

工程师们常常使用算数仪来确保计算的精确性。

5.In the classroom, the teacher introduced the arithmometer as a tool for teaching arithmetic.

在课堂上,老师将算数仪作为教授算术的工具。

6.The arithmometer was an essential device in the early days of computing.

在计算机早期,算数仪是一个重要的设备。

7.The scientist used an arithmometer to perform complex calculations during the experiment.

科学家在实验中使用算数仪进行复杂计算。

作文

The invention of calculating devices has played a crucial role in the development of mathematics and technology. Among these devices, the arithmometer (算术仪) stands out as a significant tool for performing arithmetic operations. The term 'arithmometer' refers to an early mechanical device designed to aid in calculations, particularly addition, subtraction, multiplication, and division. Its history dates back to the 19th century when mathematicians and inventors sought ways to simplify complex calculations that were often labor-intensive and prone to human error.The arithmometer (算术仪) was invented by the French mathematician Charles Xavier Thomas de Colmar in 1820. This remarkable machine was one of the first commercially successful calculating devices, allowing users to perform calculations with greater speed and accuracy. Unlike traditional methods, which relied on manual calculations or the use of abacuses, the arithmometer (算术仪) introduced a more efficient way to handle numbers.One of the defining features of the arithmometer (算术仪) is its ability to perform multiple operations through a series of levers and gears. Users could input numbers using a set of dials and then manipulate the device to execute various arithmetic functions. This mechanical innovation not only revolutionized the way calculations were performed but also paved the way for future advancements in computing technology.As time progressed, the design and functionality of the arithmometer (算术仪) evolved. It became more compact and user-friendly, enabling a wider audience to utilize its capabilities. This accessibility contributed to the growing popularity of the arithmometer (算术仪) among business professionals, engineers, and educators. In classrooms, it served as a teaching tool, helping students grasp the fundamentals of arithmetic in a tangible way.Despite its significance, the arithmometer (算术仪) eventually faced competition from more advanced calculating machines and electronic calculators. By the mid-20th century, digital technology began to dominate the field of computation, leading to the decline of mechanical devices like the arithmometer (算术仪). However, its impact on the history of mathematics and technology cannot be overstated. The principles behind the arithmometer (算术仪) laid the groundwork for the development of modern calculators and computers, which continue to shape our world today.In conclusion, the arithmometer (算术仪) represents a pivotal moment in the evolution of calculating devices. Its invention marked a shift towards mechanization in arithmetic operations, allowing for quicker and more accurate computations. While it may no longer be in widespread use, the legacy of the arithmometer (算术仪) lives on in the technology we rely on every day. Understanding its historical significance helps us appreciate the advancements in mathematics and computation that have transformed our society.

计算设备的发明在数学和技术的发展中发挥了至关重要的作用。在这些设备中,arithmometer(算术仪)作为一种重要工具,用于执行算术运算。术语“算术仪”指的是一种早期的机械设备,旨在帮助进行计算,特别是加法、减法、乘法和除法。它的历史可以追溯到19世纪,当时数学家和发明家们寻求简化复杂计算的方法,这些计算通常需要大量的劳动,并且容易出现人为错误。arithmometer(算术仪)由法国数学家查尔斯·泽维尔·托马斯·德·科尔马在1820年发明。这一非凡的机器是第一批商业上成功的计算设备之一,使用户能够以更快的速度和更高的准确性进行计算。与依赖手动计算或使用算盘的传统方法不同,arithmometer(算术仪)引入了一种更有效的处理数字的方法。arithmometer(算术仪)的一个显著特点是其通过一系列杠杆和齿轮执行多种运算的能力。用户可以使用一组拨号盘输入数字,然后操纵设备执行各种算术功能。这一机械创新不仅彻底改变了计算的方式,也为未来计算技术的进步铺平了道路。随着时间的推移,arithmometer(算术仪)的设计和功能不断演变。它变得更加紧凑和用户友好,使更广泛的受众能够利用其功能。这种可及性促进了arithmometer(算术仪)在商业专业人士、工程师和教育工作者中的日益普及。在课堂上,它作为教学工具,帮助学生以具体的方式掌握算术的基本原理。尽管其重要性显而易见,arithmometer(算术仪)最终面临来自更先进的计算机器和电子计算器的竞争。到20世纪中叶,数字技术开始主导计算领域,导致像arithmometer(算术仪)这样的机械设备逐渐衰退。然而,它对数学和技术历史的影响不可低估。arithmometer(算术仪)背后的原理为现代计算器和计算机的发展奠定了基础,这些技术继续塑造着我们今天的世界。总之,arithmometer(算术仪)代表了计算设备演变中的一个关键时刻。它的发明标志着算术运算机械化的转变,使得计算变得更快、更准确。虽然它可能不再被广泛使用,但arithmometer(算术仪)的遗产在我们每天依赖的技术中依然存在。理解其历史意义帮助我们欣赏数学和计算领域的进步,这些进步改变了我们的社会。