Science, engineering and technology

   The distinction between science, engineering and technology is not always clear. Science is the reasoned investigation or study of natural phenomena, aimed at discovering enduring principles among elements of the phenomenal world by employing formal techniques such as the scientific method.^[17] Technologies are not usually exclusively products of science, because they have to satisfy requirements such asutility, usability and safety.

Engineering is the goal-oriented process of designing and making tools and systems to exploit natural phenomena for practical human means, often (but not always) using results and techniques from science. The development of technology may draw upon many fields of knowledge, including scientific, engineering, mathematical, linguistic, and historical knowledge, to achieve some practical result.

Technology is often a consequence of science and engineering — although technology as a human activity precedes the two fields. For example, science might study the flow of electrons in electrical conductors, by using already-existing tools and knowledge. This new-found knowledge may then be used by engineers to create new tools and machines, such as semiconductors, computers, and other forms of advanced technology. In this sense, scientists and engineers may both be considered technologists; the three fields are often considered as one for the purposes of research and reference.^[18]

The exact relations between science and technology in particular have been debated by scientists, historians, and policymakers in the late 20th century, in part because the debate can inform the funding of basic and applied science. In the immediate wake of World War II, for example, in the United States it was widely considered that technology was simply "applied science" and that to fund basic science was to reap technological results in due time. An articulation of this philosophy could be found explicitly in Vannevar Bush's treatise on postwar science policy, Science—The Endless Frontier: "New products, new industries, and more jobs require continuous additions to knowledge of the laws of nature ... This essential new knowledge can be obtained only through basic scientific research." In the late-1960s, however, this view came under direct attack, leading towards initiatives to fund science for specific tasks (initiatives resisted by the scientific community). The issue remains contentious—though most analysts resist the model that technology simply is a result of scientific research.1

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بهترین نرم افزارهای اصلاح گرامر انگلیسی جملات چه هستند؟

گرامر انگلیسی برای همه‌ی کسانی که زبان مادری آنها انگلیسی نیست یک دغدغه است.

خصوصاً اگر بخواهیم نامه‌ای رسمی یا متنی مهم را به زبان انگلیسی در جایی بنویسیم یا برای کسی ارسال کنیم.

البته هیچوقت نباید فراموش کنیم که ما فارسی زبانان هم، نکات گرامری زیادی را در مورد زبان خود نمی‌دانیم و صرفاً آنچه را بیشتر رایج است، به عنوان معیار گرامر صحیح در نظر می‌گیریم.

در این فهرست می‌توانید چند مورد از بهترین سایت‌ها و ابزارهای رایگان برای چک کردن گرامر انگلیسی جملات‌ خود را ببینید:

منبع : متمم

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نحوه محاسبه ی نمره نهایی: نمره کتبی+تمرین+فعالیت کلاسی+ حضور و غیاب = x (جمع سی نمره)

x*20)/30) = نمره از بیست

ALU
Arithmetic and Logic Unit
واحد محاسبه و منطق


BIOS
Basic Input Output System
سیستم ورودی خروجی پایه

CU
Control Unit
واحد کنترل

CPU
Central Processing Unit
واحد پردازنده مرکزی

DTE
Data Terminal Equipment
ماشین های مرتبط با داده ها

FAT
File Allocation Table
جدول تخصیص فایل

HDD
Hard Disk Drive
درایو سخت

HTML
Hyper Text Makeup Language
زبان ساخت ابرمتن

TTL
 Transistor, Transistor Logic.
مخفف منطق ترانزیستور، ترانزیستور است.

Modem
MODulator DEModulator
دستگاه مودم

NOS
Network Operating System
سیستم عامل شبکه

OS
Operating System
سیستم عامل

PC
Personal Computer
کامپیوتر شخصی

PIN
Personal Identification Number
شماره شناسایی شخصی

POS
Point Of Sale Terminal
ترمینال نقطه فروش

POST
Power On Self-Test
خودآزمایی هنگام روشن شدن کامپیوتر

RAM
Random Access Memory
حافظه با دسترسی تصادفی

R/W
Read Write
خواندن/ نوشتن

ROM
Read Only Memory
حافظه فقط خواندنی

SAM
Serial Access Method
روش دستیابی سریالی

VM
Virtual Machine
ماشین مجازی

WAN
Wide Area Network
شبکه گسترده

WWW
World Wide Web
وب جهان گستر

Access =
The reading of data from storage or writing of data into storage.
دستیابی
خواندن یا نوشتن داده ها در حافظه ذخیره سازی

Access time=
The time period required for reading out of or writing into the computer memory.
زمان دستیابی
مدت زمان لازم جهت خواندن یا نوشتن در حافظه کامپیوتر

Active device=
A component, such as an electron tube or transistor, that is capable of amplifying the current or voltage in a circuit.
المان فعال
قطعه ای نظیر لامپ الکترونی یا ترانزیستور که توانایی تقویت کردن جریان یا ولتاژ را در یک مدار دارد

Address=
The number or name that uniquely identifies a register, memory location, or storage device in a computer.
آدرس
عدد یا نامی که بصورت یکتا، یک ثبات، مکام حافظه یا وسیله ذخیره سازی را در یک کامپیوتر مشخص می سازد


Applications program=
A program written to solve a specific problem, produce a specific report, or update a specific file.
برنامه کاربردی
برنامه ای که جهت حل یک مسائله ویژه، تولید یک گزارش خاص یا اصلاح یک فایل بخصوص نوشته شده است

Background processing=
The execution of lower-priority programs when higher- priority programs are not being handled by a data- processing system.
پردازش پس زمینه
اجرای برنامه های با الویت پایین تر هنگامی که برنامه های با الویت بالاتر توسط یک سیستم پردازش داده در دست گرفته نشده است

Bug=
A defect in a program code or in designing a routine or computer.
باگ
یک خرابی در یک کد برنامه یا طراحی یک روتین یا در یک کامپیوتر

Bus=
One or more conductors in a computer along which information is transmitted from any of several sources to any of several destinations.
باس
یک یا چند سیم هادی در یک کامپیوتر که از طریق آن اطلاعات از مبداهای مختلف به مقاصد مختلف فرستاده می شود

Coding=
The process of converting a problem design into an accurate, detailed representation of that program in some suitable language.
کد کردن
مرحله تبدیل طرح یک مسئله به یک نمایش دقیق و با جزئیات آن برنامه، به کمک زبان مناسب

Port=
An interface between a communications channel and a unit of computer hardware.
درگاه، پورت
یک واسطه بین کانال ارتباطی و یک واحد سخت افزار کامپیوتر

Portability=
Property of computer program that is sufficiently flexible to be easily transferred to run on a computer of a type different from the one from the one for which it was designed.
قابلیت حمل
توانایی یک برنامه کامپیوتری در قابلیت انعطاف که بتواند به سادگی بر روی کامپیوتر دیگری بغیر از کامپیوتری که برای آن طرحی شده، اجرا گردد

Private data=
Data that is open to a single user only.
داده های خصوصی
داده هایی که فقط توسط یک کاربر تنها قابل دستیابی است

Protocol=
A set of hardware and software interfaces in a terminal or computer which allows it to transmit over a communications network, and which collectively forms a communications language.
پروتکل
مجموعه ای از واسطه های سخت افزار و نرم افزار در یک ترمینال یا کامپیوتر که اجازه انتقال در یک شبکه ارتباطی را داده زبان ارتباطی را تشکیل می دهد

Repeater=
An amplifier or other device that receives weak signals and delivers corresponding stronger signals with or without reshaping of wave forms; may be either a one-way or two-way repeater.
تکرار کننده
یک نثویت کننده یا وسیله دیگر که سیگنالهای ضعیف را گرفته و سیگنالهای قوی تر متناظر را با تغییر شکل موج یا بدون تغییر شکل موج تحویل می دهد. تکرار کننده ها یکطرفه یا دوطرفه هستند

Stop bit=
The last bits transmitted in asynchronous data transmission to unequivocally indicate the end of a word.
بیت های توقف
بیتهای انتهایی منتقل شده در یک سیستم انتقال داده همزمان، که با صراحت انتهای کلمه را مشخص می سازند

Token=
A distinguishable unit in a sequence of character.
علامت، نشانه
یک واحد قابل تشخیص در رشته ای از کارکترها

Transceiver=
A device which transmits and receives data.
فرستنده گیرنده
وسیله ای که داده ها را میفرستد و میگیرد

Virtual address=
A symbol that can be used as a valid address part but does not necessarily designate an actual location.
آدرس مجازی
یک نماد که می تواند به عنوان قسمت آدرس مجاز به کار رود اما الزاماً یک مکان واقعی را در نظر نمی گیرد

What Is ICT Education and Why Is It Important?

Information and Communications Technologies (ICT) education is basically our society’s efforts to teach its current and emerging citizens valuable knowledge and skills around computing and communications devices, software that operates them, applications that run on them and systems that are built with them.

What are these things? How do they work? How do you use them productively? How are they deployed, assembled, managed and maintained to create productive systems? How they are used in specific business and industry settings? What are the underlying science and technologies behind them and how might those be developed to advance ICT fields?

ICT is complex and quickly changing, and it is confusing for many people. It is so pervasive in the modern world that everyone has some understanding of it, but those understandings are often wildly divergent.

There are many important dimensions to ICT education, including:

• ICT/Digital Literacy – Today, everyone needs a basic understanding of ICT and how to make productive use of it, just to be good students, workers and citizens. Teaching people how to be competent basic users of ICT technologies is an important role of ICT education, so they will be successful in their academic and work careers, and so they can efficiently participate in modern technical society. As part of its study validating U.S. Department of Labor IT Competency model content in California, MPICT determined with 99% confidence California employer agreement with the following statements regarding Digital Literacy:
   

  • “Information and communication technologies (ICT) competencies are increasingly important for most of our employers, regardless of role. If there was an agreed-upon standard for "digital literacy", or ICT competencies expected of all workers, regardless of workplace role, my organization would value a credential based on that standard as a way of validating ICT skills for non-ICT workers.” (70.5% agree or very much agree)
     

  • “In the 21st century, an ability to work with information and communication technologies is becoming as essential to education, life and workplace success as "reading, writing and arithmetic".” ICT Digital Literacy should be considered a basic skill by educational systems, something taught to and assessed for all students. (85.2% agree or very much agree)
     

  • This study details 49 competencies for ICT User level knowledge and skills, as an actionable, teachable and assessable definition of what people need to know and be able to do to be “digitally literate.”
     

• ICT Infrastructure and Support Applied Technologists – Beyond a basic user competency, our society also needs more knowledgeable and capable technical people to deploy, manage and maintain ICT equipment, software and systems, so they work well for users. In all industries, these people manage computer and communications hardware, software and applications; networked systems; online information sharing, communication and commerce systems; business processes making use of these systems; and user support.
   

• Specialized Business and Industry Uses of ICT – As enabling technologies, ICT is used strategically in almost all businesses and industries. Many have developed specialized systems and uses of ICT, and many have specialized legal and regulatory requirements; quality control systems; integrations with production and research equipment and systems; security requirements; and software applications. For example:
   

  • Bioscience industries rely on specialized ICT systems and applications to conduct research, analyze organic materials, produce biotech products and do required reporting;
     

  • Financial services industries rely on ICT to maintain customer records, do business, conduct trades, do financial reporting, secure proprietary information and comply with regulations;
     

  • Manufacturing industries use specialized computer controlled systems and robotics to design, produce and test products.
     

  • Property management operations use ICT to network and control heating and cooling, lighting and building access systems.
     

  • Electric utilities use ICT to monitor and manage electricity distribution, customer billing and smart metering systems.
     

  • Telecommunications, cable TV and other entertainment industries use ICT to store content, manage customers and deliver their services.
     

  We need to develop a competent workforce that understands not only relevant technologies, but also specialized business and industry environments and operations, to meet these specialized needs.

   

• ICT Research and Development Scientists – ICT fields themselves are under constant pressure to evolve and improve. We need people who deeply understand the science and technologies underlying ICT and who can work to advance the fields.

In virtually all modern businesses and industries, and in modern society in general, ICT has key strategic roles. It is strategically important to develop citizens and workers who can competently and efficiently operate and add value in these systems and environments.

Sorce