Key words model modeling purpose of modeling natural (material) model information model formalization classification of information models

3. Models and modeling A model is a new object that reflects One of the methods for cognizing objects of the surrounding world, signs that are essential from the point of view of the purpose of modeling, is modeling, which consists in creating and studying an object, process or phenomenon. The study of simplified substitutes for real objects. Modeling - a method of cognition, which consists in a substitute object is commonly called a model, and the original creation and study of models. object - a prototype or original. The creation of models is resorted to when the object under study is too large the process proceeds very quickly the process proceeds very slowly the study of a dangerous object small creation of a real one for others is expensive model - description of the original object in one of the information coding languages. Nuclear explosion Internal combustion engine Geological process

4. Stages of building an information model Real object Real object Analysis of the condition Analysis of the condition of the task of the problem Object and purpose of modeling Object and purpose of modeling Significant Significant Connection between properties Connection between properties signs of an object signs of an object and the main parts of the object. and the main parts of the object. Verbal description, table, Verbal description, table, Formalization Formalization drawing, scheme, drawing, formula, figure, diagram, drawing, formula, algorithm, program. algorithm, program. information model information model

5. An example of building an information model Ivan should memorize the three first stanzas of the first chapter of A. S. Pushkin's novel "Eugene Onegin" by heart for a literature lesson. It's 42 lines. How long will it take to complete this task if Ivan can memorize the first line in 5 seconds, and it takes him 5 seconds more time to memorize each next line than to memorize the previous line? Modeling object Modeling object Memorization process Memorization process Modeling goal Modeling goal Formula for calculating time Formula for calculating timeArithmetic progression: 2a 1 +d (n−1) S n= n a1=5, d = 5, n= 42 2

6. Classification of information models Physical Physical Subject Subject Economic Economic Area Ecological Ecological Sociological Sociological Dynamic Dynamic

7. Classification of information models Sign model Sign model program n_16; summer nature in june. Description Came var i, n: June. Nature blooms in summer, ripens, summer. integer; a, y: real; S=√ p⋅(p−a)⋅(p−b)⋅(p−c) begingardens are full of greenery, meadows are covered with a wide trail of writeln (Exponentiation); green grass. Heavy cumulus clouds soar slowly in the sky, like huge ships. a>>); write (Enter the base And although the month of May under readln (a); the end spoiled with warm and hot summer days, the first June write (Enter the indicator n>>); the days are often cool, sometimes rainy. n); y:=1; not for long at the beginning of the month. A dry anticyclone will bring warm winds, and high y:=y*a; for i:=1 to n do the sun in the sky will provide warm and writeln (y=, y) hot weather. In June, the air temperature is end. moderate without sharp jumps and averages + 15 + 17 ° C.

8. Classification of information models Figurative model Figurative model Polenov V. D. Moscow courtyard

9. Classification of information models Mixed model Mixed model

10. Most importantly, the Model is a new object that reflects the features of the subject, process or phenomenon being studied, which are essential from the point of view of the purpose of modeling. Modeling is a method of cognition, which consists in the creation and study of models. The purpose of modeling determines the features of the original object that should be reproduced in the model. Full-scale models - real objects, in a reduced or enlarged form, reproducing the appearance, structure or behavior of the object being modeled. Information models are descriptions of the original object in one of the information encoding languages. Formalization is the process of replacing a real object with its formal description, i.e. its information model. Information models: figurative, symbolic mixed.

11. Questions and tasks In the given list of models, indicate those that can be used for: List on building an information model. Give an example of information models Confirm the types of information model: c Describe the steps What is a model? Give examples of full-scale and informational examples of justice a) representation of objects of the surrounding world; depending on the form of presentation of information of the following statements: a) Is your student using the simulation? At what stage of formalization? models. b) one object may correspond to several a) explanations of known commands; object of simulation. facts; b) a basketball player Give hypotheses of information knowledge about c) testing examples and obtaining new models of models; of each type. veterinary hospital; c) patient-investigated objects; correspond to several b) one model can d) apartments of a residential building; objects. d) forecasting; e) books in the library; e) management. f) cassettes (discs) with sound recordings (video recordings); Models: layout of residential area development; photographs g) cities. movements of air masses; train timetable; flight model of an aircraft of a new design in a wind tunnel; diagram of the structure of human internal organs.

12. Reference abstract A model is a new object that reflects the essential features of the subject, process or phenomenon being studied from the point of view of the purpose of modeling. Modeling is a method of cognition, which consists in the creation and study of models. Full-scale Full-scale Model Model Informational Informational Subject area Subject area Classification Time factor Time factor of model models Representation form Representation form

Sources of information1. http://www.alaska.amedd.army.mil/dentac/content/Atom1.gif - atom2 model. http://cvt-a.ru/pics/Image/earth.jpg - photo of Earth from space3. http://www.box-m.org/uploads/posts/2009-04/1239701360_3.jpg - internal combustion engine4. http://s57.radikal.ru/i156/1109/44/602ebdd6d78d.jpg - nuclear explosion5. http://www.74dom.ru/pics/uploads/docs/v.dom_Turgoyak/b.jpg - building model6. http://www.artprojekt.ru/gallery/polenov/Pic/02.jpg - Moscow courtyard7. http://www.wallpage.ru/imgbig/wallpapers_2748.jpg - Kremlin8. http://www.map4gps.ru/images/stories/tulaobl/novomoskovsk-map-navitel.jpg - map of Novomoskovsk9. http://img1.liveinternet.ru/images/attach/c/1/59/20/59020590_207301879.jpg - Amur tiger10. http://mostevent.ru/files/slovar/diagramma_2.gif - diagram11. http://www.nipinfor.ru/images/upload/04143020.gif - geological model

Description of the presentation on individual slides:

1 slide

Description of the slide:

2 slide

Description of the slide:

Keywords model modeling purpose of modeling natural (material) model information model formalization classification of information models

3 slide

Description of the slide:

Models and modeling One of the methods of cognition of objects of the surrounding world is modeling, which consists in the creation and study of simplified substitutes for real objects. The replacement object is usually called a model, and the original object is called a prototype or original. The creation of models is resorted to when the object under study is too large the object under study is too small the process proceeds very quickly Internal combustion engine the process proceeds very slowly Geological process research is dangerous for others Nuclear explosion creation of a real object is expensive view of the purpose of modeling features of the subject, process or phenomenon under study. Modeling is a method of cognition, which consists in the creation and study of models. Dummy Model Verbal description formula, drawing, scheme Natural Information Model Information model is a description of the original object in one of the information coding languages.

4 slide

Description of the slide:

Stages of building an information model Object and purpose of modeling Information model Relationship between properties and main parts of an object. Verbal description, table, drawing, diagram, drawing, formula, algorithm, program. Formalization Essential features of the object Analysis of the task conditions Real object

5 slide

Description of the slide:

An example of building an information model Ivan should memorize the first three stanzas of the first chapter of A. S. Pushkin's novel "Eugene Onegin" by heart for a literature lesson. It's 42 lines. How long will it take to complete this task if Ivan can memorize the first line in 5 seconds, and it takes him 5 seconds more time to memorize each next line than to memorize the previous line? Simulation object Simulation goal Memory process Formula for calculating time Arithmetic progression: a1=5, d = 5, n= 42

6 slide

Description of the slide:

Physical Ecological Economic Sociological Static Dynamic Figurative Sign Mixed Time factor Subject area Representation form Classification of information models

7 slide

Description of the slide:

Iconic model Description of the nature of summer in June. Summer has come. June. Nature blooms and ripens in summer, the gardens are full of greenery, the meadows are covered with a wide train of green grass. Heavy cumulus clouds soar slowly in the sky, like huge ships. And although the month of May at the end indulged in warm and summer-like hot days, the first days of June are often cool, sometimes rainy. You should not be upset, because the protracted cloudy weather at the beginning of the month is not for long. A dry anticyclone will bring warm winds, and the high sun in the sky will provide warm and hot weather. In June, the air temperature is moderate without sharp jumps and averages +15 +17° C. Classification of information models program n_16; var i, n: integer; a, y: real; begin writeln("Exponentiation"); write("Enter base a>>"); readln(a); write("Enter exponent n>>"); readln(n); y:=1; for i:=1 to n do y:=y*a; writeln("y=", y)end.

8 slide

Description of the slide:

Figurative model Polenov V. D. Moscow courtyard Classification of information models

9 slide

Description of the slide:

10 slide

Description of the slide:

A model is a new object that reflects the features of the object, process or phenomenon being studied that are essential from the point of view of the purpose of modeling. Modeling is a method of cognition, which consists in the creation and study of models. The purpose of modeling determines the features of the original object that should be reproduced in the model. Full-scale models - real objects, in a reduced or enlarged form, reproducing the appearance, structure or behavior of the object being modeled. Information models are descriptions of the original object in one of the information encoding languages. Formalization is the process of replacing a real object with its formal description, i.e. its information model. Information models: figurative, symbolic and mixed. The most important thing

11 slide

Description of the slide:

Questions and tasks What is a model? When is modeling used? Confirm with examples the validity of the following statements: a) one object can correspond to several models; b) one model can correspond to several objects. Give examples of full-scale and informational models. In the above list of models, indicate those that can be used to: a) represent objects of the surrounding world; b) explanations of known facts; c) testing hypotheses and obtaining new knowledge about the objects under study; d) forecasting; e) management. Models: layout of residential area development; photographs of the movement of air masses; train timetable; flight model of an aircraft of a new design in a wind tunnel; diagram of the structure of human internal organs. Give an example of an information model: a) a student in your class; b) a basketball team player; c) a patient of a veterinary hospital; d) apartments in a residential building; e) books in the library; f) cassettes (discs) with sound recordings (video recordings); g) cities. Describe the steps for building an information model. What is the essence of the formalization stage? List the types of information models depending on the form of presentation of information about the modeling object. Give examples of information models of each type.

12 slide

Description of the slide:

Reference abstract Full-scale Information Model is a new object that reflects the features of the object, process or phenomenon being studied that are essential from the point of view of the purpose of modeling. Modeling is a method of cognition, which consists in the creation and study of models. Model Subject area Time factor Representation form Classification of models

Models and modeling One of the methods of cognition of objects of the surrounding world is modeling, which consists in the creation and study of simplified substitutes for real objects. The replacement object is usually called a model, and the original object is called a prototype or original. The creation of models is resorted to when the object under study is too large the object under study is too small the process proceeds very quickly Internal combustion engine the process proceeds very slowly Geological process research is dangerous for others Nuclear explosion creation of a real object is expensive view of the purpose of modeling features of the subject, process or phenomenon under study. Modeling is a method of cognition, which consists in the creation and study of models. Model Model Model Model Verbal description formula, drawing, diagram Verbal description formula, drawing, diagram Natural Information Model Information model is a description of the original object in one of the information coding languages.

Stages of building an information model Object and purpose of modeling Information model Information model Connection between properties and main parts of an object. Relationship between properties and the main parts of an object. Verbal description, table, drawing, diagram, drawing, formula, algorithm, program. Verbal description, table, drawing, diagram, drawing, formula, algorithm, program. Formalization Essential features of an object Essential features of an object Analysis of the problem condition Analysis of the problem condition Real object

An example of building an information model Ivan should memorize the first three stanzas of the first chapter of A. S. Pushkin's novel "Eugene Onegin" by heart for a literature lesson. It's 42 lines. How long will it take to complete this task if Ivan can memorize the first line in 5 seconds, and it takes him 5 seconds more time to memorize each next line than to memorize the previous line? Modeling object Modeling goal Memorization process Time calculation formula Arithmetic progression: a 1 =5, d = 5, n= 42 Arithmetic progression: a 1 =5, d = 5, n= 42

Physical Ecological Economic Sociological Static Dynamic Figurative Sign Mixed Time factor Time factor Subject area Subject area Representation form Representation form Classification of information models

Iconic model Description of the nature of summer in June. Summer has come. June. Nature blooms and ripens in summer, the gardens are full of greenery, the meadows are covered with a wide train of green grass. Heavy cumulus clouds soar slowly in the sky, like huge ships. And although the month of May at the end indulged in warm and summer-like hot days, the first days of June are often cool, sometimes rainy. You should not be upset, because the protracted cloudy weather at the beginning of the month is not for long. A dry anticyclone will bring warm winds, and the high sun in the sky will provide warm and hot weather. In June, the air temperature is moderate without sharp jumps and averages ° C. Classification of information models program n_16; var i, n: integer; a, y: real; begin writeln("Exponentiation"); write("Enter base a>>"); readln(a); write("Enter exponent n>>"); readln(n); y:=1; for i:=1 to n do y:=y*a; writeln("y=", y)end. >"); readln (a); write ("Enter exponent n>>"); readln (n); y:=1; for i:=1 to n do y:=y*a; writeln ("y= ", y) end.">

A model is a new object that reflects the features of the object, process or phenomenon being studied that are essential from the point of view of the purpose of modeling. Modeling is a method of cognition, which consists in the creation and study of models. The purpose of modeling determines the features of the original object, which must be reproduced in the model. Full-scale models - real objects, in a reduced or enlarged form, reproducing the appearance, structure or behavior of the object being modeled. Information models are descriptions of the original object in one of the information encoding languages. Formalization is the process of replacing a real object with its formal description, i.e. its information model. Information models: figurative, symbolic and mixed. The most important thing

Questions and tasks What is a model? When is modeling used? Confirm with examples the validity of the following statements: a) one object can correspond to several models; b) one model can correspond to several objects. Give examples of full-scale and informational models. In the above list of models, indicate those that can be used to: a) represent objects of the surrounding world; b) explanations of known facts; c) testing hypotheses and obtaining new knowledge about the objects under study; d) forecasting; e) management. Models: layout of residential area development; photographs of the movement of air masses; train timetable; flight model of an aircraft of a new design in a wind tunnel; diagram of the structure of human internal organs. Give an example of an information model: a) a student in your class; b) a basketball team player; c) a patient of a veterinary hospital; d) apartments in a residential building; e) books in the library; f) cassettes (discs) with sound recordings (video recordings); g) cities. Describe the steps for building an information model. What is the essence of the formalization stage? List the types of information models depending on the form of presentation of information about the modeling object. Give examples of information models of each type.

Reference abstract Full-scale Information Model is a new object that reflects the features of the object, process or phenomenon being studied that are essential from the point of view of the purpose of modeling. Modeling is a method of cognition, which consists in the creation and study of models. Model Subject area Time factor Representation form Classification of models Classification of models

Sources of information 1. gif - model of the atom gif photo of the Earth from space 3. jpg - internal combustion engine jpg nuclear explosion model of the building 6. jpg - Moscow courtyard jpg 7. jpg - Kremlin jpg map of Novomoskovsk 9. jpg - Amur tiger jpg 10. gif - diagram gif 11. gif - geological model

Keywords:

• model
• modeling
• modeling goal
• natural (material) model
• information model
• formalization
• classification of information models

2.1.1. Models and Simulation

A person seeks to know the objects (objects, processes, phenomena) of the surrounding world, that is, to understand how a particular object is arranged, what are its structure, basic properties, laws of development and interaction with other objects. To solve many practical problems, it is important to know:

• how the features of the object will change under a certain impact on it from other objects (“What will happen if ...?”);
• what kind of impact should be made on the object in order to change its features in accordance with the new requirements (“How to do so that ...?”);
• what combination of object properties is the best under given conditions (“How to do it better?”).

One of the methods of cognition of objects of the surrounding world is modeling, which consists in the creation and study of simplified substitutes for real objects. The replacement object is usually called a model, and the original object is called a prototype or original. Examples of models are shown in fig. 2.1.

Rice. 2.1.
Model examples

The creation of models is resorted to when the object under study is too large (solar system) or too small (atom), when the process proceeds very quickly (fuel processing in an internal combustion engine) or very slowly (geological processes), when the study of the object may be dangerous to others (atomic explosion), lead to the destruction of itself (checking the seismic properties of a high-rise building) or when the creation of a real object is very expensive (new architectural solution), etc.

The model is not an exact copy of the original object: it reflects only a part of its properties, relationships and behavior.

The more attributes of an object the model reflects, the more complete it is. However, it is impossible to reflect in the model all the features of the original object, and most often it is not necessary. The features of the original object, which must be reproduced in the model, are determined by the purpose of modeling - the purpose of the future model. These features are called essential for this model in terms of the purpose of modeling.

Think about what features of the theater object will be essential when creating its model from the point of view of: 1) a construction company involved in the construction of the theater building; 2) a director who is preparing the production of a new performance; 3) a cashier selling tickets; 4) a spectator who is going to attend the performance.

Since any model always reflects only a part of the features of the original, it is possible to create and use different models of the same object. For example: a ball can reproduce only one property of the Earth - its shape, an ordinary globe also reflects the location of the continents, and a globe, which is part of the current model of the solar system, also reflects the trajectory of the Earth around the Sun.

You can reflect the features of the original in the model in different ways.

First, signs can be copied, reproduced. Such a model is called natural (material). Examples of full-scale models are dummies and models - reduced or enlarged copies that reproduce the appearance of the modeled object (globe), its structure (solar system model) or behavior (radio-controlled car model).

Secondly, the features of the original can be described in one of the information coding languages ​​- give a verbal description, give a formula, diagram or drawing, etc. Such a model is called informational. In what follows, we will consider information models.

2.1.2. Stages of building an information model

Any model is built to solve some problem. The construction of an information model begins with an analysis of the conditions of this task, expressed in natural language (Fig. 2.2).

Rice. 2.2.
Stages of creating an information model

As a result of the analysis of the condition of the problem, the object of modeling and the purpose of modeling are determined.

After determining the purpose of modeling in the object of modeling, properties, main parts and relationships between them that are essential from the point of view of this particular goal are distinguished. In this case, it should be clearly defined what is given (what initial data is known, what data is acceptable) and what needs to be found in the problem being solved. Relationships between input data and results should also be indicated.

The next step in building an information model is formalization - the presentation of the identified relationships and identified essential features of the modeling object in some form (verbal description, table, figure, diagram, drawing, formula, algorithm, computer program, etc.).

Example. A 9th grade student for a literature lesson must memorize the first three stanzas of the first chapter of A. S. Pushkin's novel "Eugene Onegin", containing 42 lines. How long will it take him to complete this task if he can memorize the first line in 5 seconds, and he needs 10 seconds more time to memorize each next line than to memorize the previous line?

In this case, the object of modeling is the process of memorizing a poem by a student; The purpose of the simulation is to get a formula for calculating the time it takes a student to memorize a poem.

From the point of view of the purpose of modeling, the following information is essential: the time of memorizing the first line (5 seconds); difference in memorization time of the next and previous lines (10 seconds); the number of lines to be memorized (42 lines). This is the original data. The result is the time it takes to memorize all 42 lines of a novel fragment.

Since the time to memorize each line, starting from the second, is obtained by adding a constant number to the time required to memorize the previous line, we can talk about an arithmetic progression:

5, 15, 25, 35, ...

The first member of this progression is a1 = 5, the difference of the progression is d = 10, the number of members of the progression is n = 42.

From the algebra course, a formula is known for calculating the sum of the first n terms of an arithmetic progression:

This formula is the desired information model. With its help, independently calculate the time required for the student to memorize the poem.

Information models exist separately from modeling objects and can be processed independently of them. Having built an information model, a person uses it instead of the original object to study this object, to solve the task.

The address http://earth.google.com/intl/ru/ hosts the Google Earth application, which provides the opportunity to travel around our planet without getting up from your chair. This is a three-dimensional model of the planet, moving on which you can: view satellite photographs of the earth's surface; view cities, individual buildings and world-famous landmarks in 3D; explore distant galaxies, constellations and planets; travel to the past, etc.

2.1.3. Classification of information models

There are many options for classifying information models. Let's consider some of them.

If we take the subject area as the basis for classification, then we can distinguish physical, environmental, economic, sociological and other models.

Depending on the consideration of the time factor, dynamic (changing over time) and static (not changing over time) models are distinguished.

Depending on the form of presentation of information about the modeling object, there are sign, figurative and mixed (figurative-sign) types of information models.

Sign information models are built using various natural and formal languages ​​(sign systems). A sign information model can be represented in the form of a text in a natural language or a program in a programming language, in the form of a formula, etc.

Figurative information models (drawings, photographs, etc.) are visual images of objects recorded on any information carrier.

Mixed information models combine figurative and symbolic elements. Examples of mixed information models are geographical maps, graphs, charts, etc. All these models use both graphic elements and signs at the same time.

The most important thing

A model is a new object that reflects the features of the object, process or phenomenon being studied that are essential from the point of view of the purpose of modeling.

Modeling is a method of cognition, which consists in the creation and study of models.

The purpose of modeling (the purpose of the future model) determines the features of the original object that should be reproduced in the model.

Distinguish natural and information models. Full-scale models - real objects, in a reduced or enlarged form, reproducing the appearance, structure or behavior of the object being modeled. Information models are descriptions of the original object in one of the information encoding languages.

Formalization is the process of replacing a real object with its formal description, i.e. its information model.

According to the form of presentation, figurative, symbolic and mixed (figurative-sign) information models are distinguished.

Questions and tasks

1. What is a model? When is modeling used?
2. Prove the following statements with examples:

   a) one object can correspond to several models;

   b) one model can correspond to several objects.

3. Give examples of full-scale and informational models.
4. In the above list of models, indicate those that can be used for:

   a) representation of objects of the surrounding world;

   b) explanations of known facts;

   c) testing hypotheses and obtaining new knowledge about the objects under study;

   d) forecasting;

   e) management.

   Models: layout of residential area development; photographs of the movement of air masses; train timetable; flight model of an aircraft of a new design in a wind tunnel; diagram of the structure of human internal organs.

5. Give an example of an information model:

   a) a student in your class;

   b) a basketball team player;

   c) a patient of a veterinary hospital;

   d) apartments in a residential building;

   e) books in the library;

   f) cassettes (discs) with sound recordings (video recordings);

   g) cities.

6. Describe the steps for building an information model. What is the essence of the formalization stage?
7. List the types of information models depending on the form of presentation of information about the modeling object. Give examples of information models of each type.
8. Check out the 3D models posted in the Unified Collection of Digital Educational Resources (www.school-collection.edu.ru/). To what class of models can they be attributed?

Presentation:

2. What is the model? When is modeling used? A model is a new object that reflects the features of the object, process or phenomenon being studied that are essential from the point of view of the purpose of modeling.

Modeling is used in cases where the object is too large or too small, the process is very fast or very slow, the study of the object can be dangerous to others, and so on.

3. Confirm with examples the validity of the following statements:
a) one object can correspond to several models;
b) one model can correspond to several objects.

Examples:
a - Object: Car, models: parking space, drawing, road sign, radio-controlled car.
b - Model: Scheme, objects: metro scheme, building scheme, radio schemes

4. Give examples of natural and informational models.

Life models: toy, mannequin, photograph, etc.
Information models: table, graph, formula, etc.

5. In the above list of models, indicate those that can be used for:

a - a layout of the development of a residential area; photographs of the movement of air masses.
b - photographs of the movement of air masses; flight model of an aircraft of a new design in a wind tunnel; diagram of the structure of human internal organs.
c - photographs of the movement of air masses; flight model of an aircraft of a new design in a wind tunnel; diagram of the structure of human internal organs.
d - photographs of the movement of air masses; train timetable; flight model of an aircraft of a new design in a wind tunnel.
e - train timetable.

6. Give an example of an information model

a - guy, height 173 cm, brown eyes, brunette.
b - a tall guy, fair-haired, athletic, agile, fast.
c - kind, fluffy, constantly meows.
g - 3rd floor, spacious 3-room apartment.
d - hard cover
e - CD-R disc with a capacity of 700 MB, rock music is recorded.
g - Russian city, multinational, located in the Nizhny Novgorod region.

7. Describe the steps for building an information model. What is the essence of the formalization stage?

The construction of the information model begins with the analysis of the conditions of the problem. After the analysis, the object and purpose of modeling is determined. After that, the essential features of the model are highlighted and at the end formalization.
Formalization is the replacement of a real object with its formal description, that is, its information model.

8. List the types of information models depending on the form of presentation of information about the modeling object. Give examples of information models of each type.

Scheme - subway scheme, road map, etc.
Table - cool magazine, product price list, etc.
Hierarchical model - classification of animal species, arrangement of books in a library, etc.