Неплохой topic simple machines. Методическая разработка занятия по английскому языку на тему "Машины и работа" (3 курс)

Детективы 01.09.2023

Детективы

Simple machines are devices with few or no moving parts that make work easier. Students are introduced to the six types of simple machines - the wedge, wheel and axle, lever, inclined plane, screw, and pulley - in the context of the construction of a pyramid, gaining high-level insights into tools that have been used since ancient times and are still in use today. In two hands-on activities, students begin their own pyramid design by performing materials calculations, and evaluating and selecting a construction site. The six simple machines are examined in more depth in subsequent lessons in this unit. This engineering curriculum meets Next Generation Science Standards (NGSS).

Engineering Connection

Why do engineers care about simple machines? How do such devices help engineers improve society? Simple machines are important and common in our world today in the form of everyday devices (crowbars, wheelbarrows, highway ramps, etc.) that individuals, and especially engineers, use on a daily basis. The same physical principles and mechanical advantages of simple machines used by ancient engineers to build pyramids are employed by today"s engineers to construct modern structures such as houses, bridges and skyscrapers. Simple machines give engineers added tools for solving everyday challenges.

Learning Objectives

After this lesson, students should be able to:

Understand what a simple machine is and how it would help an engineer to build something.
Identify six types of simple machines.
Understand how the same physical principles used by engineers today to build skyscrapers were employed in ancient times by engineers to build pyramids.
Generate and compare multiple possible solutions to creating a simple lever machine based on how well each met the constraints of the challenge.

Educational Standards

Each TeachEngineering lesson or activity is correlated to one or more K-12 science, technology, engineering or math (STEM) educational standards.

All 100,000+ K-12 STEM standards covered in TeachEngineering are collected, maintained and packaged by the Achievement Standards Network (ASN) , a project of D2L (www.achievementstandards.org).

In the ASN, standards are hierarchically structured: first by source; e.g. , by state; within source by type; e.g. , science or mathematics; within type by subtype, then by grade, etc .

NGSS: Next Generation Science Standards - Science

NGSS Performance Expectation
3-PS2-2. Make observations and/or measurements of an object"s motion to provide evidence that a pattern can be used to predict future motion. (Grade 3) Do you agree with this alignment? Thanks for your feedback!


This lesson focuses on the following Three Dimensional Learning aspects of NGSS:
Science & Engineering Practices	Disciplinary Core Ideas	Crosscutting Concepts
Make observations and/or measurements to produce data to serve as the basis for evidence for an explanation of a phenomenon or test a design solution. Alignment agreement: Thanks for your feedback! Science findings are based on recognizing patterns. Alignment agreement: Thanks for your feedback!	The patterns of an object"s motion in various situations can be observed and measured; when that past motion exhibits a regular pattern, future motion can be predicted from it. (Boundary: Technical terms, such as magnitude, velocity, momentum, and vector quantity, are not introduced at this level, but the concept that some quantities need both size and direction to be described is developed.) Alignment agreement: Thanks for your feedback!	Patterns of change can be used to make predictions. Alignment agreement: Thanks for your feedback!

International Technology and Engineering Educators Association - Technology

Choosing a Pyramid Site - Working in engineering project teams, students choose a site for the construction of a pyramid. They base their decision on site features as provided by a surveyor"s report; distance from the quarry, river and palace; and other factors they deem important to the project.

Lesson Closure

Today, we have discussed six simple machines. Who can name them for me? (Answer: Wedge, wheel and axle, lever, inclined plane, screw, and pulley.) How do simple machines make work easier? (Answer: Mechanical advantage enables us to use less force to move an object, but we have to move it a longer distance.) Why do engineers use simple machines? (Possible answers: Engineers creatively use their knowledge of science and math to make our lives better, often using simple machines. They invent tools that make work easier. They accomplish huge tasks that could not be done without the mechanical advantage of simple machines. They design structures and tools to use our environmental resources better and more efficiently.) Tonight, at home, think about everyday examples of the six simple machines. See how many you can find around your house!

Complete the KWL Assessment Chart (see the Assessment section). Gauge students" understanding of the lesson by assigning the Simple Machines Worksheet as a take-home quiz. As an extension, use the attached to conduct a simple machines scavenger hunt in which students find examples of simple machines used in the classroom and at home.

In other lessons of this unit, students study each simple machine in more detail and see how each could be used as a tool to build a pyramid or a modern building.

Vocabulary/Definitions

Design: (verb) To plan out in systematic, often graphic form. To create for a particular purpose or effect. Design a building. (noun) A well thought-out plan.

Engineering: Applying scientific and mathematical principles to practical ends such as the design, manufacture and operation of efficient and economical structures, machines, processes and systems.

Force: A push or pull on an object.

Inclined plane: A simple machine that raises an object to greater height. Usually a straight slanted surface and no moving parts, such as a ramp, sloping road or stairs.

Lever: A simple machine that increases or decreases the force to lift something. Usually a bar pivoted on a fixed point (fulcrum) to which force is applied to do work.

Mechanical advantage: An advantage gained by using simple machines to accomplish work with less effort. Making the task easier (which means it requires less force), but may require more time or room to work (more distance, rope, etc.). For example, applying a smaller force over a longer distance to achieve the same effect as applying a large force over a small distance. The ratio of the output force exerted by a machine to the input force applied to it.

Pulley: A simple machine that changes the direction of a force, often to lift a load. Usually consists of a grooved wheel in which a pulled rope or chain runs.

Pyramid: A massive structure of ancient Egypt and Mesoamerica used for a crypt or tomb. The typical shape is a square or rectangular base at the ground with sides (faces) in the form of four triangles that meet in a point at the top. Mesoamerican temples have stepped sides and a flat top surmounted by chambers.

Screw: A simple machine that lifts or holds materials together. Often a cylindrical rod incised with a spiral thread.

Simple machine: A machine with few or no moving parts that is used to make work easier (provides a mechanical advantage). For example, a wedge, wheel and axle, lever, inclined plane, screw, or pulley.

Spiral: A curve that winds around a fixed center point (or axis) at a continuously increasing or decreasing distance from that point.

Tool: A device used to do work.

Wedge: A simple machine that forces materials apart. Used for splitting, tightening, securing or levering. It is thick at one end and tapered to a thin edge at the other.

Wheel and axle: A simple machine that reduces the friction of moving by rolling. A wheel is a disk designed to turn around an axle passed through the center of the wheel. An axle is a supporting cylinder on which a wheel or a set of wheels revolves.

Work: Force on an object multiplied by the distance it moves. W = F x d (force multiplied by distance).

Assessment

Pre-Lesson Assessment

Know / Want to Know / Learn (KWL) Chart: Create a classroom KWL chart to help organize learning about a new topic. On a large sheet of paper or on the classroom board, draw a chart with the title "Building with Simple Machines." Draw three columns titled, K, W and L, representing what students know about simple machines, what they want to know about simple machines and what they learned about simple machines. Fill out the K and W sections during the lesson introduction as facts and questions emerge. Fill out the L section at the end of the lesson.

Post-Introduction Assessment

Reference Sheet: Hand out the attached Simple Machines Reference Sheet . Review the information and answer any questions. Suggest the students keep the sheet handy in their desks, folders or journals.

Lesson Summary Assessment

Closing Discussion: Conduct an informal class discussion, asking the students what they learned from the activities. Ask the students:

Who can name the different types of simple machines? (Answer: Wedge, wheel and axle, lever, inclined plane, screw, and pulley.)
How do simple machines make work easier? (Answer: Mechanical advantage enables us to use less force to move an object, but we have to move it a longer distance.)
Why do engineers use simple machines? (Possible answers: Engineers creatively use their knowledge of science and math to make our lives better, often using simple machines. They invent tools that make work easier. They accomplish huge tasks that could not be done without the mechanical advantage of simple machines. They design structures and tools to use our environmental resources better and more efficiently.)

Remind students that engineers consider many factors when they plan, design and create something. Ask the students:

What are the considerations an engineer must keep in mind when designing a new structure? (Possible answers: Size and shape (design) of the structure, available construction materials, calculation of materials needed, comparing materials and costs, making drawings, etc.)
What are the considerations an engineer must keep in mind when choosing a site to build a new structure? (Possible answers: Site physical characteristics , distance to construction resources , suitability for the structure"s purpose .)

KWL Chart (Conclusion): As a class, finish column L of the KWL Chart as described in the Pre-Lesson Assessment section. List all of the things they learned about simple machines. Were all of the W questions answered? What new things did they learn?

Take-Home Quiz: Gauge students" understanding of the lesson by assigning the Simple Machines Worksheet as a take-home quiz.

Lesson Extension Activities

Use the attached Simple Machines Scavenger Hunt! Worksheet to conduct a fun scavenger hunt. Have the students find examples of all the simple machines used in the classroom and their homes.

Bring in everyday examples of simple machines and demonstrate how they work.

Illustrate the power of simple machines by asking students to do a task without using a simple machine, and then with one. For example, create a lever demonstration by hammering a nail into a piece of wood. Have students try to pull the nail out, first using only their hands

Bring in a variety of everyday examples of simple machines. Hand out one out to each student and have them think about what type of simple machine it is. Next, have students place the items into categories by simple machines and explain why they chose to place their item there. Ask students what life would be like without this item. Emphasize that simple machines make our life easier.

See the Edheads website for an interactive game on simple machines: http://edheads.org.

Engineering Design Fun with Levers: Give each pair of students a paint stirrer, 3 small plastic cups, a piece of duct tape and a wooden block or spool (or anything similar). Challenge the students to design a simple machine lever that will throw a ping pong ball (or any other type of small ball) as high as possible. In the re-design phase, allow the students to request materials to add on to their design. Have a small competition to see which group was able to send the ping pong ball flying high. Discuss with the class why that particular design was successful versus other variations seen during the competition.

Additional Multimedia Support

See http://edheads.org for a good simple machines website with curricular materials including educational games and activities.

References

Dictionary.com. Lexico Publishing Group, LLC. Accessed January 11, 2006. (Source of some vocabulary definitions, with some adaptation) http://www.dictionary.com

Simple Machines. inQuiry Almanack, The Franklin Institute Online, Unisys and Drexel eLearning. Accessed January 11, 2006. http://sln.fi.edu/qa97/spotlight3/spotlight3.html

Contributors

Greg Ramsey; Glen Sirakavit; Lawrence E. Carlson; Jacquelyn Sullivan; Malinda Schaefer Zarske; Denise Carlson, with design input from the students in the spring 2005 K-12 Engineering Outreach Corps course

Copyright

Supporting Program

Integrated Teaching and Learning Program, College of Engineering, University of Colorado Boulder

Acknowledgements

The contents of these digital library curricula were developed by the Integrated Teaching and Learning Program under National Science Foundation GK-12 grant no. 0338326. However, these contents do not necessarily represent the policies of the National Science Foundation, and you should not assume endorsement by the federal government.

Last modified: December 4, 2019

Topic 9 Simple Machines

A screwdriver is used to pry the lid off a can of paint. What type of lever is the screwdriver in this instance? 1st Class Lever 2nd Class Lever 3rd Class Lever It’s actually acting as an inclined plane. 10

12 3.0 8.3 25 75 10

29 1.7 3.5 28 350 10

Participant Scores 12 Jacob Joey Daniel David Nicole B.

A single pulley is used to hoist a safe with a mass of 45. 0 kg
A single pulley is used to hoist a safe with a mass of 45.0 kg. If the machine is 100% efficient, what effort force will be required to hoist the safe? 45.0 N 90.0 N 205 N 266 N 441 N 10

A snow shovel is an example of which type of lever? (Hint: The handle of the shovel is the fulcrum.) 1st Class 2nd Class 3rd Class 10

How long must an inclined plane be to push a 100 kg object to a height of 2.0 meters using a force of 200 N? Friction can be ignored. 2.0 m 9.8 m 50 m 100 m 200 m 400 m 10

A wheel and axle machine requires an effort force of 5.0 N to lift a load with a mass of 5.1 kg. If the machine is ideal and has a wheel radius of 12 cm, what is the radius of the axle? 1.0 cm 1.2 cm 5.0 cm 10 cm 1.2 m 2.4 m 10

Participant Scores 28 Jacob Joey Daniel David Mackenzie

20 N 25 N 196 N 245 N 1960 N Answer Now 10

What force will be required to push a 500 N box to a height of 2.50 meters on a ramp that is 10.0 meters long and 85% efficient? 4.00 N 50.0 N 106 125 N 147 N 10

1 2 3 4 5 10

0.50 1.00 1.50 2.00 2.50 Answer Now 10

Participant Scores 44 Jacob Mackenzie 39 Nicole F. Joey Daniel

A ramp is 12 meters long and 3.0 meters high. It takes 145 N of force to push a 400 N crate up the ramp. Determine the efficiency of the ramp. .36 % .69 % 3.0 % 8.2 % 36 % 69 % 145 % 10

An object is placed 1. 75 meters from the fulcrum of a lever
An object is placed 1.75 meters from the fulcrum of a lever. The effort force is 0.50 meters from the fulcrum. What is the actual mechanical advantage if the lever is 95% efficient? .271 .286 .301 3.33 3.50 3.68 Answer Now 10

20% 31% 69% 80% 87% 96% Answer Now 10

Participant Scores 56 Jacob Mackenzie 51 Nicole F. Joey Daniel

A certain ramp is 10 meters long and is 50% efficient
A certain ramp is 10 meters long and is 50% efficient. It requires 25 N of force to push a 50 N crate up the ramp. How tall is the ramp? 1.0 m 2.0 m 2.5 m 3.5 m 4.0 m 5.0 m 22
Participant 1 Participant 2 Participant 3 Participant 4 Participant 5 Participant 6 Participant 7 Participant 8 Participant 9 Participant 10

Simple machines can be used to make work easier and faster. Compound machines are basically simple machines placed together to work together. Work is force acting on an object that moves it a distance (W=F*d). A simple machine must have some force applied to it to do work. Simple machines let us use a small force to beat bigger forces. They can also change the direction of the force. Keep in mind that a simple machine cannot create energy (F input * d input = F output * d output). If you want the force output to be big and distance output to be small, you need to have a big distance input and a small force input. If you want the force output to be small and the distance output to be large, then the force input needs to be large and the distance input to be small (Fd = Fd). There are three simple machines will be focus on for this project: lever, pulley, and wheel and axle. .
The lever is used in seesaws, shovels, hammers, and other everyday objects. A lever consists of three main parts: the fulcrum, rod, and the load the machine is acting on it. The fulcrum, or fixed point, allows the rod to move up and down freely. There are three classes of levers, but for this project a will be using the second-class lever. This lever allows us to use less force to act on the load. In other words, less force and more distance will be inputted to result in more force and less distance. This kind of lever in usually used to move heavy objects. The fulcrum is closer to the load to achieve this. This simple machine will probably be the best to lift the soda can. Most of the lever can be built out of wood. The fulcrum may be made out of metal or wood. .
The pulley is used in cranes. Pulleys usually lift the load. A pulley changes the direction in the force to do that. A pulley is used to change the direction of the force. It can also multiply forces depending on the type. In this project a type one and two pulley will be used.

Essays Related to Simple Machines

1.

Technology and machines have become more advanced we have grown accustomed to having machines such as computers and cars in our everyday lives. Our own machines will soon surpass our own intelligence. ... Machines have played a vital role in our lives. ... When they were first created a computer that had the power of one of today"s simple five dollar calculators required so much space to hold all of their necessary equipment it could take up a whole room, but the simple machine known today can be made so small it can not even be handled by a human due to its s...

Word Count: 1272
Approx Pages: 5
Grade Level: High School

2.

AI is the attempt to make machines, specifically computers, perform intelligently through programming. ... It could be said that the human brain is nothing more than a machine, and as we know it to be capable of thought it would be fair to surmise that therefore machines can think and it is probably this, or a similar premise that inspired AI. ... This argument is an attempt to demonstrate that although a computer program appears to be understanding a story, it is merely obeying simple instructions, and has no understanding at all. ... But what are these natural causal properties, and from ...

Word Count: 1323
Approx Pages: 5
Has Bibliography

3.

In The Time Machine by H.G Wells, Wells portrays the future to an exact detail. ... The Eloi are simple and beautiful creatures, but the Time Traveler thinks of them as weak and lazy. ... Through the Time Machine Wells warns that mankind will come to end if capitalism continues. ... Social Darwinism and evolution are presented throughout the Time Machine. ... Well"s uses the Time Machine to project what he believes the future will be. ...

Word Count: 1454
Approx Pages: 6
Grade Level: High School

4.

Rage Against The Machine At first thought a band standing on stage naked for 15 minutes without saying a word or playing a single note might seem lewd, but after finding that they were silently protesting censorship one might think differently of them. Rage Against the Machine (RATM) is probably one of the most atypical bands that one could ever find. ... Believe it or not there are bands who care less about money and more about issues and Rage Against the Machine is one of them. ... The majority of their songs were primarily written as activist poetry by Zack de la Rocha (lead singer ...

Word Count: 519
Approx Pages: 2

5.

ABSTRACT Complex system theory in animals and machines is well developed and a basic synopsis is provided. ... These ideas have been applied in the field of Engineering to develop machines for controlling states of objects or events: a simple temperature control system is used as a model. ... This process, is the modern basis of the modern theory regarding the evolution of life, which in simple terms can be described as the process of prolonging a type of structure through; duplication, reproduction or other processes. ... A basic comparison of control systems in nature and machines can b...

Word Count: 908
Approx Pages: 4
Has Bibliography
Grade Level: Undergraduate

6.

Personally thinking, technology makes people"s life simpler than making people"s lives more complicated because newly developed devices, improvement of living condition and efficient transportation. ... All of those technologies can help people get a simpler and easier lives. ... Thus, technology has more benefits can be discovered, and it make lives simpler rather than more complicated. In conclusion, although technology may be a little bit complicated, when we count it use on machines, communication, information, and transportation, it is more pure and effortless for our lives. ...

Word Count: 787
Approx Pages: 3
Has Bibliography
Grade Level: Undergraduate

7.

A simple distinction between both groups is that humans depend on organization where as animals do not. The Time Machine by H.G. ... Unlike the Eloi, the Morlocks have a curiosity for knowledge which is why they take the time machine. ... When the time machine is returned to him, he notices that it is very clean and well oiled. ... Wells illustrates this quite well in The Time Machine. ...

И стал называться YaBB SE .

По мере того как YaBB SE развивался, он становился все больше, и к тому времени появились некоторые аспекты, требующие переделки и усовершенствования проекта. Было принято решение, что лучше всего отделиться от YaBB SE , потому как это было нечто иное, чем YaBB. Самым правильным решением было отказаться от всего что наработано и начать все заново. С этого и началось развитие SMF .

29 сентября 2003 года была выпущена первая версия SMF 1.0 beta1 , которая распространялась только для группы Charter Member . Это было большим минусом, так как форум мог использовать только ограниченный круг людей, входивших в состав данной группы. 10 марта 2004 года вышел первый общедоступный релиз SMF . Веб-форумы на базе SMF 1.1 : ami.lv и не менее популярный iratbildes.lv .

SMF создавался как замена интернет-форуму YaBB SE , который приобрел плохую репутацию из-за проблем его аналога, разработанного на Perl с подобным названием - YaBB .

Первые версии YaBB были известны проблемой производительности и были требовательны к ресурсам. YaBB SE был написан как примерный PHP -порт YaBB , но при этом он был менее требователен к ресурсам и даже лишён проблем с безопасностью.

SMF стартовал как небольшой проект одного из разработчиков YaBB SE , и с целью расширить возможности шаблонов YaBB SE . С тех пор проект постепенно расширялся: добавлялась общая функциональность «заказанная» пользователями, решались проблемы производительности и вопросы безопасности.

Версия 2.0 форума объявлена 8 апреля 2007. Публичный бета-релиз был выпущен 17 марта 2008. К основным нововведениям относятся :

Абстракция базы данных: планируется поддержка PostgreSQL и SQLite .
Центр модерации, объединяющий все функции модерации для всех модераторов, а также позволяющий осуществлять премодерацию тем, сообщений и вложений, если это будет необходимо.
Система предупреждений пользователей
Дополнительное управление группами пользователей такими как модераторы, а также свободные группы и группы по запросу.
Поддержка OpenID . Возможность использовать OpenID -аккаунт для регистрации и входа на форум.
Дополнительные поля в профилях пользователей.
WYSIWYG -редактор для обеспечения интуитивно понятного интерфейса пользователя.
Диспетчер задач и система очереди сообщений

Исходный код проекта доступен в публичном репозитории на GitHub github.com/SimpleMachines/SMF2.1

Лицензия

SMF 1.0 и 1.1 публикуются под проприетарной лицензией. В то время как с открытым исходным кодом, перераспределение и / или распространение модифицированных компонентов ограничено уполномоченным органам.

Simple Machines Forum версии 2.0 и 2.1 под лицензией BSD 3-п . Это также открытый исходный код с перераспределением модифицированного кода в зависимости от требований к BSD.

Локализация

Команда SMF

Над SMF работают более 50 человек , в том числе:

3 менеджера
6 разработчиков
3 документатора

Девиз команды: «Малочисленные, гордые, увлечённые!» (The few, the proud, the geeky! (англ.) )

См. также

Напишите отзыв о статье "Simple Machines Forum"

Примечания

Литература

Phil Hughes (англ.) // Linux Journal . - 2008. - 4 марта.

Ссылки

- официальный сайт Simple Machines Forum (англ.)
(рус.)
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Отрывок, характеризующий Simple Machines Forum

По опекунским делам рязанского именья, князю Андрею надо было видеться с уездным предводителем. Предводителем был граф Илья Андреич Ростов, и князь Андрей в середине мая поехал к нему.
Был уже жаркий период весны. Лес уже весь оделся, была пыль и было так жарко, что проезжая мимо воды, хотелось купаться.
Князь Андрей, невеселый и озабоченный соображениями о том, что и что ему нужно о делах спросить у предводителя, подъезжал по аллее сада к отрадненскому дому Ростовых. Вправо из за деревьев он услыхал женский, веселый крик, и увидал бегущую на перерез его коляски толпу девушек. Впереди других ближе, подбегала к коляске черноволосая, очень тоненькая, странно тоненькая, черноглазая девушка в желтом ситцевом платье, повязанная белым носовым платком, из под которого выбивались пряди расчесавшихся волос. Девушка что то кричала, но узнав чужого, не взглянув на него, со смехом побежала назад.
Князю Андрею вдруг стало от чего то больно. День был так хорош, солнце так ярко, кругом всё так весело; а эта тоненькая и хорошенькая девушка не знала и не хотела знать про его существование и была довольна, и счастлива какой то своей отдельной, – верно глупой – но веселой и счастливой жизнию. «Чему она так рада? о чем она думает! Не об уставе военном, не об устройстве рязанских оброчных. О чем она думает? И чем она счастлива?» невольно с любопытством спрашивал себя князь Андрей.
Граф Илья Андреич в 1809 м году жил в Отрадном всё так же как и прежде, то есть принимая почти всю губернию, с охотами, театрами, обедами и музыкантами. Он, как всякому новому гостю, был рад князю Андрею, и почти насильно оставил его ночевать.
В продолжение скучного дня, во время которого князя Андрея занимали старшие хозяева и почетнейшие из гостей, которыми по случаю приближающихся именин был полон дом старого графа, Болконский несколько раз взглядывая на Наташу чему то смеявшуюся и веселившуюся между другой молодой половиной общества, всё спрашивал себя: «о чем она думает? Чему она так рада!».
Вечером оставшись один на новом месте, он долго не мог заснуть. Он читал, потом потушил свечу и опять зажег ее. В комнате с закрытыми изнутри ставнями было жарко. Он досадовал на этого глупого старика (так он называл Ростова), который задержал его, уверяя, что нужные бумаги в городе, не доставлены еще, досадовал на себя за то, что остался.
Князь Андрей встал и подошел к окну, чтобы отворить его. Как только он открыл ставни, лунный свет, как будто он настороже у окна давно ждал этого, ворвался в комнату. Он отворил окно. Ночь была свежая и неподвижно светлая. Перед самым окном был ряд подстриженных дерев, черных с одной и серебристо освещенных с другой стороны. Под деревами была какая то сочная, мокрая, кудрявая растительность с серебристыми кое где листьями и стеблями. Далее за черными деревами была какая то блестящая росой крыша, правее большое кудрявое дерево, с ярко белым стволом и сучьями, и выше его почти полная луна на светлом, почти беззвездном, весеннем небе. Князь Андрей облокотился на окно и глаза его остановились на этом небе.
Комната князя Андрея была в среднем этаже; в комнатах над ним тоже жили и не спали. Он услыхал сверху женский говор.
– Только еще один раз, – сказал сверху женский голос, который сейчас узнал князь Андрей.
– Да когда же ты спать будешь? – отвечал другой голос.
– Я не буду, я не могу спать, что ж мне делать! Ну, последний раз…
Два женские голоса запели какую то музыкальную фразу, составлявшую конец чего то.
– Ах какая прелесть! Ну теперь спать, и конец.
– Ты спи, а я не могу, – отвечал первый голос, приблизившийся к окну. Она видимо совсем высунулась в окно, потому что слышно было шуршанье ее платья и даже дыханье. Всё затихло и окаменело, как и луна и ее свет и тени. Князь Андрей тоже боялся пошевелиться, чтобы не выдать своего невольного присутствия.
– Соня! Соня! – послышался опять первый голос. – Ну как можно спать! Да ты посмотри, что за прелесть! Ах, какая прелесть! Да проснись же, Соня, – сказала она почти со слезами в голосе. – Ведь этакой прелестной ночи никогда, никогда не бывало.
Соня неохотно что то отвечала.
– Нет, ты посмотри, что за луна!… Ах, какая прелесть! Ты поди сюда. Душенька, голубушка, поди сюда. Ну, видишь? Так бы вот села на корточки, вот так, подхватила бы себя под коленки, – туже, как можно туже – натужиться надо. Вот так!
– Полно, ты упадешь.
Послышалась борьба и недовольный голос Сони: «Ведь второй час».
– Ах, ты только всё портишь мне. Ну, иди, иди.
Опять всё замолкло, но князь Андрей знал, что она всё еще сидит тут, он слышал иногда тихое шевеленье, иногда вздохи.
– Ах… Боже мой! Боже мой! что ж это такое! – вдруг вскрикнула она. – Спать так спать! – и захлопнула окно.
«И дела нет до моего существования!» подумал князь Андрей в то время, как он прислушивался к ее говору, почему то ожидая и боясь, что она скажет что нибудь про него. – «И опять она! И как нарочно!» думал он. В душе его вдруг поднялась такая неожиданная путаница молодых мыслей и надежд, противоречащих всей его жизни, что он, чувствуя себя не в силах уяснить себе свое состояние, тотчас же заснул.

На другой день простившись только с одним графом, не дождавшись выхода дам, князь Андрей поехал домой.
Уже было начало июня, когда князь Андрей, возвращаясь домой, въехал опять в ту березовую рощу, в которой этот старый, корявый дуб так странно и памятно поразил его. Бубенчики еще глуше звенели в лесу, чем полтора месяца тому назад; всё было полно, тенисто и густо; и молодые ели, рассыпанные по лесу, не нарушали общей красоты и, подделываясь под общий характер, нежно зеленели пушистыми молодыми побегами.
Целый день был жаркий, где то собиралась гроза, но только небольшая тучка брызнула на пыль дороги и на сочные листья. Левая сторона леса была темна, в тени; правая мокрая, глянцовитая блестела на солнце, чуть колыхаясь от ветра. Всё было в цвету; соловьи трещали и перекатывались то близко, то далеко.
«Да, здесь, в этом лесу был этот дуб, с которым мы были согласны», подумал князь Андрей. «Да где он», подумал опять князь Андрей, глядя на левую сторону дороги и сам того не зная, не узнавая его, любовался тем дубом, которого он искал. Старый дуб, весь преображенный, раскинувшись шатром сочной, темной зелени, млел, чуть колыхаясь в лучах вечернего солнца. Ни корявых пальцев, ни болячек, ни старого недоверия и горя, – ничего не было видно. Сквозь жесткую, столетнюю кору пробились без сучков сочные, молодые листья, так что верить нельзя было, что этот старик произвел их. «Да, это тот самый дуб», подумал князь Андрей, и на него вдруг нашло беспричинное, весеннее чувство радости и обновления. Все лучшие минуты его жизни вдруг в одно и то же время вспомнились ему. И Аустерлиц с высоким небом, и мертвое, укоризненное лицо жены, и Пьер на пароме, и девочка, взволнованная красотою ночи, и эта ночь, и луна, – и всё это вдруг вспомнилось ему.

For starters, allow me to introduce the major hole in English linguistics terminology. And these three example sentences will help me:

A cat chases a dog
To think is human
She ate her breakfast

Now a question: how do you refer to the syntactic role that the highlighted words occupy in the sentences? Or else: how do you refer to the slot between subject and object that ties the two together?

The answer: there is no unambiguous word in English to refer to it.

Usually, linguists resort to one of two options:

A) We could call it a verb . That’s how it’s called in language typology: in SVO structure, for example, the letters stand for “subject-verb-object”.

The problem is, though, that ‘verb’ is already a name for a word class. Word classes (e.g. , ‘noun’, ‘adjective’, ‘adverb’) are word categories by their morphology (common word endings) and syntactic roles that they could take. While syntactic roles (e.g. , ‘subject’, ‘object’, ‘attribute’) are particular slots in a sentence that don’t exist outside of a sentence.

Just because the word class of a verb tends to occupy the syntactic role in question doesn’t mean that the two are the same. And to illustrate it, please go back to the second example sentence. Is ‘to think’ a verb, but suddenly… not a verb?

So, when people say that they’ve just invented a verbless language, you could guess all you want what they mean. Is it like:

“My language has usual rigid syntax like in English, German or Japanese - but there are no word classes.”

Or do they mean:

“My language has completely alien syntax. It doesn’t rely on SVO or similar pattern, and has no subjects or objects as well.”

B) We could also call it a predicate . However, not only this term has nothing to do with the syntactic slot in question - it has nothing to do with linguistics at all .

It’s a term from logic.

Any statement, be it a sentence in whatever language or some logical formula, has a predicate structure: meaning that in every statement, there’s something that we make a statement about (a logical subject), and the actual statement about the subject (a predicate).

Linguists have adopted the term to refer to the syntactic slot between S and O - but technically, predicate isn’t that. In a sentence:

Helen is a sophomore student from Stanford .

the entire highlighted part is a predicate. The sentence is a statement about Helen (hence, she’s a subject). The rest of the sentence is new information about her that we state - a predicate. If you’re familiar with programming, we’ve kinda applied a function: Helen is our variable to modify, and the statement is the actual function that changes the properties of the variable.

Now, for you to understand the point better, let’s break the default logical structure of the sentence with a dialogue:

Joe: “Tell me something interesting about Stanford!”

Moe: “Well, Helen is a sophomore student from Stanford.”

Now suddenly, Stanford is a logical subject. Firstly, Joe sets the subject for discussion, and then, Moe makes a statement about it: that Helen studies there. The university is what we’re interested in, while Helen is now part of the logical predicate.

Obviously, the sentence structure doesn’t agree with it: Helen is the syntactic subject in the sentence, and you don’t change that without shuffling the actual words around. But the dialogue has certain logical composition nonetheless, which doesn’t give a damn about the words or the language. Logic is sort-of above languages, and searching for predicate is not about cracking your head over syntax: you have to analyse the actual meaning of the statement made by a sentence.

This is why I am a strong proponent of introducing a new, separate word for “V” syntactic slot. Personally, I prefer to call it verbicate (good thing that it keeps the ‘V’ letter in SVO). So here’s another exotic option for you:

C) Call it a verbicate - be unambiguous.

Now that the prelude is over - back to your actual question.

If by “a language without predicate ” you mean “a language without verbicate ”, then absolutely yes . I’ve already covered this in , so I won’t be repeating. But in short: verbicate-based syntax is just one type of syntax that by no means is the only possible. It has proven itself to be effective (no kidding - ten thousand years of being virtually the exclusive type of syntax in natural human languages), and yet syntax could be anything. There probably are millions of ways to build a sentence, and what you’re after has been done repeatedly by many conlangers.

If by “predicate” you mean the actual predicate, then it’s kinda yes/no answer:

Yes , a language can be without predicates, because no language has predicates. It’s not a property or part of languages at all, and you can’t use linguistical methods to study or look for predicates. Just because a language is a tool to convey predicated statements doesn’t mean that the tool must inherit the property of the tooled.

No , a language cannot be spoken without predicates. Regardless of how grotesque or alien a language is, communication is still communication: the exchange of statements between interlocutors. When you speak, you convey information about something, meaning that every statement regardless of language can be broken down into a logical subject and what’s being stated about it.

In some languages, the grammar might more-or-less align with logical predicate structure; in other languages, it may not at all. But the statements remain the statements. Even if you ditched languages and used pictures to communicate - you still would be making statements, and thus use predicates.

Damn, even when my cat meows for food, she makes a statement that has a subject and a predicate.

To sum up , your question is roughly the same as “can a language exist without time? ”: before you ask, make sure you’re talking about tense , because time is kinda out of languages’ scope.