BRAIN. Broad Research in Artificial Intelligence and Neuroscience 
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2021, Volume 12, Issue 4, pages: 314-328 | https://doi.org/10.18662/brain/12.4/252  

 
 

Developing 
Independent 
Creativity in Pupils: 
Neuroscientific 
Discourse and 
Ukraine’s Experience 
Tetiana BERBETS¹,  
Vitalii BERBETS2,  
Inna BABII3,  
Olga CHYRVA4,  
Andrii MALYKHIN5,  
Liliia SUSHENTSEVA6,  
Serhii MEDYNSKII7,  
Olha RIABOSHAPKA8,  
Tetiana MATVIICHUK9,  
Valeriy SOLOVYOV10,  
Iryna MAKSYMCHUK11,  
Borys MAKSYMCHUK12 

 

1 Pavlo Tychyna Uman State Pedagogical 
University, Ukraine, berbec08@ukr.net  
2 Pavlo Tychyna Uman State Pedagogical 
University, Ukraine, berbec1977@ukr.net   
3 Pavlo Tychyna Uman State Pedagogical 
University, Ukraine, in77na77@ukr.net   
4 Pavlo Tychyna Uman State Pedagogical 
University, Ukraine, chyrva81@ukr.net    
5 Berdyansk State Pedagogical University, Ukraine, 
master_ped@meta.ua  
6 Lviv Polytechnic National University, Ukraine, 
sushentz2009@ukr.net  
7 Bogdan Khmelnitsky Melitopol State Pedagogical 
University, Ukraine, sermedyn@ukr.net  
8 Pavlo Tychyna Uman State Pedagogical 
University, Ukraine, lifeisgood81@ukr.net   
9 Lviv State University of Physical Culture, Ukraine, 
tetfart@gmail.com   
10 Lviv State University of Physical Culture, 
Ukraine, valerisolovyov@gmail.com  
11 Mariupol State University, Ukraine, 
0963113686@ukr.net  
12 Izmail State University of Humanities, Ukraine, 
0674256781@ukr.net  

Abstract: The article deals with the process of updating the content and 
methods of technological training. The latter aims to form pupils’ skills 
of independent creativity and educational and handicraft activities, which 
act as the means of improving education quality. The international 
relevance of the article lies in the objectification of Ukraine’s experience, 
which can be used in the post-Soviet countries, given that these countries 
follow conservative principles in planning and implementing educational 
content. The article proves that the effectiveness of developing pupils’ 
experience of independent creativity during handicraft and technology 
lessons is determined by the following organizational and methodological 
conditions: comprehending the need for independent creativity; developing 
pupils’ positive motivation towards independent creative handicraft and 
technology activities; improving educational and methodological support; 
using innovative pedagogical technologies and information and 
communication technologies. The article summarizes research findings of 
certain Ukrainian and foreign researchers, which adds up to the 
generalized contribution of its authors. 

 
Keywords: educational and handicraft activities, technological 
training, situations of success, workbook, game technologies. 
 

How to cite: Berbets, T., Berbets, V., Babii, I., Chyrva, O., 
Malykhin, A., Sushentseva, L., Medynskii, S., Riaboshapka, 
O., Matviichuk, T., Solovyov, V., Maksymchuk, I., & 
Maksymchuk, B. (2021). Developing Independent 
Creativity in Pupils: Neuroscientific Discourse and 
Ukraine’s Experience. BRAIN. Broad Research in Artificial 
Intelligence and Neuroscience, 12(4), 314-328. 
https://doi.org/10.18662/brain/12.4/252  

https://doi.org/10.18662/brain/12.4/252
mailto:berbec08@ukr.net
mailto:berbec1977@ukr.net
mailto:in77na77@ukr.net
mailto:chyrva81@ukr.net
mailto:master_ped@meta.ua
mailto:sushentz2009@ukr.net
mailto:sermedyn@ukr.net
mailto:lifeisgood81@ukr.net
mailto:tetfart@gmail.com
mailto:valerisolovyov@gmail.com
mailto:0963113686@ukr.net
mailto:0674256781@ukr.net
https://doi.org/10.18662/brain/12.4/252


Developing Independent Creativity in Pupils: Neuroscientific Discourse and … 
Tetiana BERBETS, et al. 

 

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Introduction 

The analysis of theoretical and practical aspects in the development 
of pupils' experience of independent creativity during handicraft and 
technology activities shows that there are several contradictions between 
increasing attention of society to the problem of developing creative and 
independent personality in pupils and an insufficient realization of 
technological training potential in solving this relevant problem; an objective 
need to reorient the vector of school education to increase the level of 
development of pupils' experience of independent creativity in pupils and 
the lack of effective methodology for developing this personal quality during 
handicraft and technology activities; the need to increase the level of 
development of the experience of independent creativity in pupils aged 
between 10 and 14 (Grades 5-9) and the application of only traditional 
educational means and technologies. 

Considering themselves as adults, on the one hand, contradicts 
adolescents’ actual abilities. On the other hand, real adults’ attitude towards 
them does not correspond to their new insights, which is why they strive for 
independence and individual behavioural manifestations. Due to their lack 
of necessary experience in independent activities, pupils may deal with 
numerous life problems, which proves that adolescence is the most sensitive 
period for developing experience in independent creative handicraft and 
technology activities (Komogorova et al., 2021; Maksymchuk, 2020a; 
Maksymchuk, 2020b; Onishchuk et al., 2020; Palamarchuk et al., 2020; 
Sheremet et al., 2019). 

Thus, the authors of the article have clarified the concept of “pupils’ 
experience in independent creativity”, which is considered as a complex of 
knowledge and skills in planning, organizing, and performing individual 
creative handicraft and technology tasks with the help of non-standard 
approaches and without teacher supervision. 

The creative experience is a result of the creative and active 
acquisition and application of knowledge and skills during independent, 
highly organized, and motivated creativity. 

In general, independent activity involves various tasks. It is 
manifested through cognitive or practical tasks, which motivate pupils 
towards participating in handicraft and technology activities. Each 
independent activity should correspond to the aim and objectives of 
educational material, as well as ensure gradual progression from ignorance to 
knowledge, from the lower to the higher level of independence. 



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A complex of didactic means, which contribute to developing both 
technological education content and its information environment, is of great 
importance in the organization of pupils’ independent creativity during 
handicraft and technology lessons. It has been found that technology 
teachers prefer the following tools for organizing independent activities: 
textbooks and manuals (30.7%), blackboard (60.8%), instructional and 
technological cards (45.3%), creative design (3.8 %), whereas modern 
educational tools (computers, workbooks, multimedia projectors) are applied 
quite insufficiently. 

However, despite many pieces of research on this problem, which 
consider various aspects of independent creative handicraft and technology 
activities of pupils, several issues related to developing the experience of 
independent creativity in middle school pupils during technological training 
remains insufficiently studied. Besides, the problem has been intensified by 
the modernization of content and methodology of pupils’ technological 
training in comprehensive schools. 

Therefore, the research aims to justify the effectiveness of 
organizational and methodological conditions for developing independent 
creativity in pupils during technological training 

Independent Creativity of Pupils in learning: Global Trends 

Recently, several theories have emerged in educational and 
neuroscientific discourse to stimulate the cognitive and creative potential of 
pupils, considering interdisciplinary research. Thus, some scholars claim that 
the creative intellectual activity of pupils is inseparable from their motor 
activity. One area stimulates another, as well as lack of motor activity inhibits 
both cognitive and creative spheres. There is still insufficient experimental 
evidence of the links between the motivation behind the independent 
creativity and motor activity. At the same time, Gearin & Fien (2016) state 
that physical activity boosts motivation towards cognitive activity and offers 
non-standard solutions to didactic problems. 

Currently, one can observe the links between people’s neurobiology 
and their educational, cognitive, and creative capabilities. A holistic approach 
to this issue has revealed the interdependence between such, at first glance, 
heteromorphic aspects as thinking, attention, physical activity, motivation, 
nutrition, lifestyle, independence, response to positive and negative stimuli 
(Gruart, 2014). The motivation for independent creativity in childhood is 
based on adaptive mechanisms, which gradually become socially oriented. 



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317 

Such research much popularizes educational tools “claiming to use 
“right-brain techniques” (Lindell & Kidd, 2011). Besides, the idea that 

people are “left‐brained” or “right‐brained” is a neuromyth that was 
debunked (Lindell & Kidd, 2011).  The correlation of the hemispheres in 
creative solving of didactic or life problems is much more complex than 
previously understood. 

Today, some researchers justify the neurophysiological basis of 
independent creativity and identify specific brain circuits involved in specific 
higher brain functions. As noted by Dietrich (2004), “there are four basic 
types of creative insights, each mediated by a distinctive neural circuit”. At 
the same time, Dietrich (2004) indicates, “by definition, creative insights 
occur in consciousness”. Given that “the working memory buffer of the 
prefrontal cortex holds the content of consciousness, each of the four 
distinctive neural loops terminates there” (Dietrich, 2004). Also, “when 
creativity is the result of deliberate control, as opposed to spontaneous 
generation, the prefrontal cortex also instigates the creative process” 
(Dietrich, 2004). Thus, both spontaneous and intentional creative modes of 
information processing include integrated emotional-intuitive and rational 
(mental) mechanisms. It means that science and art find common 
mechanisms and systematize the interaction between knowledge and creative 
thinking (Dietrich, 2004). 

The basis for the current stimulation of independent creativity is an 
assumption that educational or any other personal motivation is based on 
human subjectivity as one of the main bio-social functions. Moreover, social, 
psychological, and neurophysiological mechanisms operate simultaneously in 
their implementation (Della Sala & Anderson, 2012). 

The other side of stimulating pupils’ independent creativity now lies 
in reassessing the importance of motivation’s emotional component. 
Previously, the role of emotions in cognitive activity and education was 
underestimated, and they were considered an additional component. 
Currently, scholars are proving that emotions affect the quality and intensity 
of such higher cognitive processes as memory, attention and, consequently, 
motivation for independent creativity (Li et al., 2018, p. 220). The nature and 
quality of emotions have more influence on cognitive and creative processes 
than rational attitudes. From this one can conclude that modelling 
educational conditions should be based on optimizing the atmosphere, 
receiving positive incentives and the child’s stay in an emotionally ecological 
environment. 



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Stimulating Independent Creativity of Pupils in Ukrainian Discourse 

Different aspects of organizing independent creativity of pupils 
during handicraft and technology lessons have been covered in many pieces 
of research. Thus, the category of independence has always been considered 
in didactics, psychology, and technologies teaching. In particular, the 
concept of independent activities has been defined by Aleksiuk & Kashin 
(1986), Buriak (2007), Savchenko (2007); classification characteristics of 
independent activities have been specified by Onyshchuk (1981) and Usova 
(2000). The importance of enhancing pupils’ independence during 
technological training has been highlighted in research by Kobernyk (1998). 

The analysis of certain studies (Kobernyk, 1998) shows that the 
problem of organizing independent creativity of pupils during technological 
training is rather relevant. The current stage in technological education 
development is characterized by the rapid increase in information volume 
given limited teaching hours and high requirements for the level and quality 
of pupils’ educational achievements in handicraft and technology activities. 
However, one can observe that pupils’ interest in handicraft and technology 
lessons, the volume of acquired knowledge, and the quality of technological 
training are decreasing. Therefore, comprehensive schools should aim to 
develop a creative, active, and independent personality of pupils during 
technological training. 

The authors of the article agree with Serhiienko (2010) that 
organizational and methodological conditions are based on certain functions 
of activity: planning, organization, motivation, control and analysis. Teacher 
activity is not a temporary action, but a process, a series of continuous 
interrelated actions, each of which is, in turn, the process and the product of 
certain functions. An aspect-based approach to teacher activity involves 
taking into account and considering real-life practical situations and 
conditions. Therefore, organizational and methodological conditions are 
viewed as specific concrete circumstances concerning the organization and 
methods of developing the experience of independent creativity in pupils, 
which are aimed at improving this process. 

They also agree with Erganova (2007), who defines the following goals 
of using workbooks in the educational process: ensuring the quality 
acquisition of educational material; developing educational and cognitive 
activity; developing the experience of learner autonomy; promoting creativity 
in educational and cognitive activity. 



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Studies by Galperin & Talyzina (1992) prove that workbooks and 
textbooks are complementary learning tools according to their functional 
purpose. The only difference between them is that textbooks are primarily 
aimed at highlighting educational material, whereas workbooks are intended 
for its understanding and consolidation and, therefore, contain a system of 
guidelines for the gradual development of the experience of independent 
creativity. The analysis of pedagogical literature shows that educational 
literature is represented by the educational and methodological complex in 
the system of didactic tools, which includes the workbooks. 

The authors of the article agree with Shchukina (1998), who believes 
that it is expedient to single out the general sanitary and hygienic 
requirements, the requirements for font design and printing materials for 
workbooks. One of these requirements is a dedicated evaluation of the 
clarity of colour combinations when selecting lettering, fonts and 
background colours. 

Considering the complexity of the problem, it is impossible to reveal 
all its aspects within this research. Prospects for further studies include 
developing theoretical and methodological principles of organizing 
independent creative handicraft and technology activities for different age 
groups of pupils, improving the content of pupils’ independent activities 
with the help of didactic means and information and communication 
technologies during handicraft and technology lessons, organizing 
independent extracurricular activities of pupils. 

The Experience of Implementing the Simulated Conditions 

The selection of pupils for the implementation of the new conditions 
is rooted in the assumption that the level of general technological training, 
the level of experience of independence and creativity in learning and certain 
personal qualities of the pupils should be approximately the same and they 
should be engaged in sports sections. Given that pupils in Grades 5-9 studied 
in urban and rural comprehensive schools, the level of technological training 
was generally the same. 

Pupils were more independent in their learning as they used less the 
help of teachers or peers in solving their learning tasks and used more 
additional sources of information, which is a requirement of the high level of 
educational achievements. 

The effectiveness of developing the experience of independent 
creativity in pupils during handicraft and technology lessons is determined 
by the following organizational and methodological conditions: 
comprehending the need for an independent creative activity as an integral 



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component of technological training of pupils in a modern school; ensuring 
the process of developing pupils’ positive motivation towards independent 
creative handicraft and technology activities; improving educational and 
methodological support of organization of pupils’ independent creativity 
during handicraft and technology lessons; using innovative pedagogical 
technologies and information and communication technologies while 
organizing middle school pupils’ independent creativity. 

It is certain that the effectiveness of the first condition directly 
depends on technology teachers' comprehending the importance of the 
organization of pupils’ independent creativity during handicraft and 
technology lessons and considering them as an integral part of the 
educational process. Independent learning facilitates pupil-centred learning, 
intellectual development and increases the intensity of the educational 
process. Due to the well-developed experience of independent creativity, 
pupils can deepen their knowledge independently, perform practical tasks 
and carry out self-control, self-assessment, and self-correction of educational 
activities. 

The second condition is realized by creating favourable conditions 
for pupils to increase their interest in independent creativity while 
performing handicraft and technology tasks. Nevertheless, these motives are 
related to fulfilling the existing needs of the subject of activity and, therefore, 
play a stimulating function, which determines the subject orientation of 
pupils’ independent creativity. Pupils’ experience of independent creativity is 
developed by many motives that are different in content, features and of 
different origin (social, cognitive, professional, and axiological). Of great 
significance in developing pupils’ experience in independent creativity are 
such motives as cognitive interest and creating a situation of success. The 
interest in creative independent activities and their results serves as an 
incentive to complete independent activities. Creating the situation of 
success in any independent creative activity aims to encourage pupils to 
make optimal use of their capabilities, strive for quality performance, persist 
in achieving a certain goal and overcome the difficulties that may occur. 

The teacher must encourage pupils to feel that they are “no worse than 
others” so that they can feel comfortable while performing an independent 
task. Therefore, teachers need to select realistic tasks for pupils and evaluate 
their performance, while ensuring a proper microclimate, in which the pupil 
does not feel insecure and afraid. There should be a comfortable pedagogical 
environment (atmosphere of kindness, sincerity and openness; harmonious 
environment facilitating independent creativity; better perception of the new 



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and fast reproduction of the learned material). Teachers’ positive evaluation 
evokes positive emotions in pupils. 

There is a great variety of methods for creating situations of success 
for schoolchildren during handicraft and technology lessons (independent 
search, fulfilled aspirations, positive evaluation of partial results, family joy, 
hidden pedagogical tools, verbal support, the joy of learning, eureka, self-
knowledge, advancing, etc.), using which the teacher not only retains the 
natural desire of children to learn but also leads them out of the sphere of 
emotional impressions to the state when the child not only wants to learn but 
cannot but learn. 

Situations of success are created by the teacher for the whole class 
gradually, improving the emotional climate in the team, supporting pupils in 
educational activities and developing a sense of self-confidence. However, the 
pupil is happy to communicate with the teacher and classmates, feeling that 
they have noticed his/her success and approve it. The whole class appreciates 
the success of an individual pupil, which creates a reserve for the next 
activity. 

The third condition for developing pupils’ experience of 
independent creativity involves developing and improving educational and 
methodological support of handicraft and technology lessons. 
Comprehensive educational and methodological support includes planning, 
developing, and creating an optimal system (complex) of educational and 
methodological documentation and teaching aids, which are necessary for an 
effective organization of the educational process within the allocated time 
and the content defined by the curriculum. Different teaching aids have 
different goals, didactic functions, and opportunities. Complexity in 
methodological support of the educational process implies selecting 
appropriate teaching aids based on their didactic functions for organizing 
independent handicraft and technology activities. Rather effective, in this 
case, is using workbooks, which form a didactic complex intended for 
organizing independent creativity of pupils in class and at home, allow 
saving some time and performing more activities in less time. Also, they 
complement the basic educational material.  

The main aim of using a workbook during technological training is to 
ensure the operational acquisition and systematization of concepts by pupils 
and to promote the activation of their creative independent educational and 
cognitive activity, the development of practical skills to organize independent 
work using theoretical material, textbooks and other additional didactic tools, 
Internet resources, etc. Therefore, it is impossible to ensure successful step-
by-step creation of the experience of independent creativity in pupils without 



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developing the means of step-by-step control, which is the most important 
task in the development of workbooks for pupils. 

Adherence to the complex didactic training tools enables the teacher 
to successfully use workbooks within the framework of the general 
methodological complex of crafts and technologies. Given that the 
workbook includes such components as drawings, diagrams, flowcharts, 
pictures, self-check questions and tasks, it must follow certain psychological 
and pedagogical requirements: 1) to correspond to the topic of the lesson 
under the curriculum; 2) to focus on the main aspects, be visually enhanced, 
contain a detailed explanation, study the essence of the phenomena, as well 
as to summarize the acquired educational information; 3) to include the 
images accorded with the scale proportions of their parts, especially if they 
relate to significant details, and demonstrating the most important details in 
tones. 

Besides, workbooks have the following advantages: 1. Using a 
workbook eliminates the need to spend time writing homework and 
classroom tasks. There is a one-week gap between handicraft and technology 
lessons. During this time, the child can forget everything covered in the 
previous lesson. Homework is an elementary encouragement for the pupil to 
work in the next lesson. 2. The workbook allows completing a full “pre-
computer” training of the pupil in the lesson. This allows him/her to work 
with the computer more consciously and purposefully. 3. The workbook 
usually contains a large number of illustrations. Considering that the 
principle of visual learning is one of the main ones, it contributes to a more 
complete perception of the information received and, therefore, to the 
greater acquisition of knowledge. 

The intended way of performing educational tasks in the workbook 
can be presented through pictures, diagrams, tables, instructions and 
technological cards for their further material embodiment during 
independent practical work. In the workbook, it is necessary to place a 
sequence of tasks and the so-called “free space” for tasks, that is, to perform 
them in workbooks it is recommended to leave enough space for the 
creative realization of thoughts. 

In turn, the teacher needs to show possible ways to find a way to 
complete the task, to learn how to make the algorithm independently, to 
perform the task. The workbook should also include some creative tasks. 
While performing such tasks, pupils can show their – if elementary – skills 
and knowledge to compile such algorithms. Combining a summary of 
theoretical foundations of the topic and the sequence of typical tasks creates 
the so-called information complex. This is the first section of each topic 



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covered in the workbook. The second main section of each topic discussed 
is a system of different tasks and exercises for pupils’ classwork and 
homework. This section should include several different types of typical 
tasks. This will enhance their ability to perform tasks and improve the 
quality of mastering the material. Non-standard tasks can be offered to 
pupils only after mastering typical ones. This contributes to the purposeful 
and intensive development of pupils’ thinking and the formation of their 
creative skills. 

It is also advisable to include additional information in workbooks: 
notes, historical data, references, conclusions and summaries missing from 
the textbook. This is necessary to widen pupils’ outlook and specify the 
educational material in the form of short conclusions. Some self-check 
questions can be suggested to teach pupils to evaluate their understanding of 
the discussed educational material. 

The workbook should include instructions for practical work. The 
objectives of the lesson should be clearly stated, the training aids should be 
described and the algorithm for completing the task should be given. 

It is also helpful to include a list of bibliographical guidance that will 
allow pupils to better and more thoroughly understand the topic, as well as 
to familiarize themselves with new information sources. This is the final 
component for each topic presented in the workbook. 

Thus, the structure and content of the workbook include the 
information complex for each topic of the course: short theoretical 
information, algorithms for solving common problems; tasks for 
independent work (typical, developmental and creative ones); instructions 
for practical and laboratory work; generalizations and conclusions on each 
topic: notes, summaries, conclusions, self-check questions, references. 

The fourth condition implies using innovative pedagogical technologies and 
information and communication technologies while organizing pupils’ independent 
creativity. The introduction of innovative pedagogical technologies, in 
particular, project-based learning and educational games, assists pupils in 
developing their independent orientation skills in scientific, educational and 
reference literature; learning how to find the information they need without 
assistance; preserving and strengthening their independence, that is, the 
willingness to create, etc.; adapting to real self-study; seeing themselves as 
creators of their activities; developing creative imagination, which is a 
powerful stimulus for generating new ideas, searching for alternative 
solutions, their analysis, synthesis, which in the future will become the basis 
of innovative thinking. 



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The effective development and implementation of the project by the 
pupils, as well as design and technological activities should consist of the 
following stages: organization and preparation, designing, technologization 
and summary. At each stage, the pupils perform some specific sequential 
actions, implementing the project, and the teacher becomes the organizer of 
educational activities. 

At the organization and preparation stage, the pupils comprehend and 
reveal the meaning of the next workpiece. They come up with ideas, propose 
different options and product parameters and, finally, discuss and choose 
the best one. Before choosing the product, the pupils should understand its 
usefulness and practicality. During this stage, they form their self-evaluation 
skills. At the designing stage, the pupils create the chain of production: they 
choose a sketch, tools and equipment, determine the chain of technological 
operations, select a rational technology for making products; they carry out 
economic, environmental and mini-marketing operations. At the 
technologization stage, the pupils perform scheduled operations, carry out self-
monitoring and quality control of the product. At the final stage, the project 
is monitored, compared and tested. Thus, the pupils determine whether they 
have achieved their goal and what is the result of their work. After 
completing all the steps, the pupils defend their project (product, plan, 
model) before peers. 

Effective technology for developing the experience of independent 
creativity in adolescents is educational gaming, which helps to create creative 
situations, exchange knowledge and organize independent mental activities. 
Handicraft and technology lessons provide tremendous opportunities for 
using game technologies, such as solving crossword puzzles, riddles, etc. 
Such tasks are performed by either one or many pupils together, competing 
in speed and completeness of the answers. Below are some educational 
games that are appropriate to use during handicraft and technology lessons 
to develop independence and creativity of pupils: “Journalists”, “Research 
Laboratory”, “Dreamers”, “Compiling Test Papers”, “Put Things Right”, 
“The Mysterious Package”, “The Advertising Campaign”. 

With the help of multimedia technologies, an e-book (e-
encyclopedia) has been created. It is a training tool, whose recorded pages 
are shown on the display screen; computer didactic and educational games 
that widen the pupils’ outlook, stimulate cognitive interest, creativity and 
form necessary skills and abilities. 

It must be noted that by applying information and communication 
technologies while organizing independent activities of pupils during 
handicraft and technology lessons, one can create special conditions required 



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to find necessary methods for solving creative situations, modelling, and 
constructing creative objects, to fulfil individual needs of each pupil, to make 
the process more mobile, as well as highly differentiated and individual. 

Conclusions 

The results of observations on the pupils’ experience of independent 
creativity, their questionaries and sample interviews, as well as the study of 
the pupils’ creative projects and the results of their work prove that the EG 
pupils are more aware of the importance of independent creativity and can 
logically use the experience gained in educational situations. It has helped 
them to increase the level of independent educational creativity, to acquire 
skills of creative search of ways and places for applying the acquired 
knowledge and to strengthen interdisciplinary connections. 

The criteria and indicators of developing pupils’ experience of 
independent creativity have been determined. They include motivational and 
axiological criterion (the pupils’ ability to set a goal, show interest in the 
creative process, express a positive attitude to independent activities and 
handicraft and technology activities, cope with difficulties, achieve good 
results in independent creative tasks, strive for creative self-improvement); 
cognitive criterion (pupils’ understanding of independent creative tasks, 
knowledge of stages and technologies, awareness about the process of 
performing independent creative tasks and creative design methods) and the 
operational and activity-based criterion (the pupils' ability to independently 
perform creative tasks, use a workbook and creative design methods; the 
ability to design independently and improvise in so doing). Based on the 
outlined criteria and indicators, the levels of developing pupils’ experience of 
independent creative handicraft and technology activities during 
technological training (high, sufficient, average, and initial) have been 
characterized. It has been found that the number of middle school pupils 
with the average (32.4%) and initial (21.3%) levels prevail. Only 14.7% of 
pupils have a high level.  

The organizational and methodological conditions for developing 
middle school pupils’ experience of independent creativity during handicraft 
and technology lessons have been justified. They include comprehending the 
need for an independent creative activity as an integral component of 
technological training of pupils in a modern school; ensuring the process of 
developing pupils’ positive motivation towards independent creative 
handicraft and technology activities; improving educational and 
methodological support of organization of pupils’ independent creativity 
during handicraft and technology lessons; using innovative pedagogical 



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technologies and information and communication technologies while 
organizing pupils’ independent creativity. 

References 

Aleksiuk, A. M., & Kashin, S. O. (1986). Udoskonalennya navchalnoho protsesu v seredniy 
shkoli [Enhancing the educational process in secondary school]. Higher 
Education.  

Buriak, V. (2007). Systema dydaktychnykh umov efektyvnosti orhanizatsiyi 
navchalnoyi piznavalnoyi diyalnosti [The system of didactic conditions for 
the effectiveness of educational cognitive activities organization]. Ridna 
shkola, 5, 25-27. 
http://catalog.library.tnpu.edu.ua:8080/library/DocDescription?doc_id=2
79628  

Della Sala, S., & Anderson, M. (2012). Neuroscience in education: the good, the bad, and the 
ugly. Oxford University Press.   

Dietrich, A. (2004). The cognitive neuroscience of creativity. Psychonomic Bulletin & 
Review, 11, 1011-1026. https://doi.org/10.3758/BF03196731  

Erganova, N. Y. (2007). Metodika professionalnogo obucheniya [Vocational training 
methodology]. Academy.  

Galperin, P. Y., & Talyzina, N. F. (1992). Upravleniye poznavatelnoy deyatelnostyu 
uchashchikhsya [Managing cognitive activity of pupils]. Pedagogy.  

Gearin, B. M., & Fien, H. (2016). Translating the neuroscience of physical activity 
to education. Trends in Neuroscience and Education, 5(1), 12 19. 
https://doi.org/10.1016/j.tine.2016.02.001  

Gruart, A. (2014). The role of neurosciences in education... and vice versa. 
International Journal of Educational Psychology, 3(1), 21-48. 
http://dx.doi.org/10.4471/ijep.2014.02  

Kobernyk, O. M. (1998). Navchalno-vykhovnyy protses u silskiy zahalnoosvitniy shkoli: 
sutnist, proektuvannya, orhanizatsiya [The educational process in rural 
comprehensive school: concept, design, organization]. Knowledge.  

Komogorova, M., Maksymchuk, B., Bernatska, O., Lukianchuk, S., Gerasymova, I., 
Popova, O., Matviichuk, T., Solovyov, V., Kalashnik, N., Davydenko, H., 
Stoliarenko, O., Stoliarenko, O., & Maksymchuk, I. (2021). Pedagogical 
Consolidation of Pupil-Athletes? Knowledge of Humanities. Revista 
Romaneasca Pentru Educatie Multidimensionala, 13(1), 168-187. 
https://doi.org/10.18662/rrem/13.1/367 

Li, L., Gow, A. D. I., & Zhou, J. (2018). The role of positive emotions in education: 
a neuroscience perspective.  Mind, Brain, and Education, 14(3), 220-234. 
https://doi.org/10.1111/mbe.12244  

http://catalog.library.tnpu.edu.ua:8080/library/DocDescription?doc_id=279628
http://catalog.library.tnpu.edu.ua:8080/library/DocDescription?doc_id=279628
https://doi.org/10.3758/BF03196731
https://doi.org/10.1016/j.tine.2016.02.001
http://dx.doi.org/10.4471/ijep.2014.02
https://doi.org/10.18662/rrem/13.1/367
https://doi.org/10.1111/mbe.12244


Developing Independent Creativity in Pupils: Neuroscientific Discourse and … 
Tetiana BERBETS, et al. 

 

327 

Lindell, A. K., & Kidd, E. (2011). Why right‐brain teaching is half‐witted: a critique 
of the misapplication of neuroscience to education. Mind, Brain, and 
Education, 5(3), 121-127.  https://doi.org/10.1111/j.1751-
228X.2011.01120.x  

Maksymchuk, B., Gurevych, R., Matviichuk, T., Surovov, O., Stepanchenko, N., 
Opushko, N., Sitovskyi, A., Kosynskyi, E., Bogdanyuk, A., Vakoliuk, A., 
Solovyov, V., & Maksymchuk, I. (2020a). Training Future Teachers to 
Organize School Sport. Revista Romaneasca Pentru Educatie 
Multidimensionala, 12(4), 310-327. https://doi.org/10.18662/rrem/12.4/347   

Maksymchuk, B., Matviichuk, T., Solovyov, V., Davydenko, H., Soichuk, R., 
Khurtenko, O., Groshovenko, O., Stepanchenko, N., Andriychuk, Y., 
Grygorenko, T., Duka, T., Pidlypniak, I., Gurevych, R., Kuzmenko, V., & 
Maksymchuk, I. (2020b). Developing Healthcare Competency in Future 
Teachers. Revista Romaneasca Pentru Educatie Multidimensionala, 12(3), 24-43. 
https://doi.org/10.18662/rrem/12.3/307 

Onishchuk, I., Ikonnikova, M., Antonenko, T., Kharchenko, I., Shestakova, S., 
Kuzmenko, N., & Maksymchuk, B. (2020). Characteristics of Foreign 
Language Education in Foreign Countries and Ways of Applying Foreign 
Experience in Pedagogical Universities of Ukraine. Revista Romaneasca Pentru 
Educatie Multidimensionala, 12(3), 44-65. 
https://doi.org/10.18662/rrem/12.3/308 

Onyshchuk, V. A. (1981). Urok v sovremennoy shkole [The lesson in a modern school]. 
Prosveshchenie.  

Palamarchuk, O., Gurevych, R., Maksymchuk, B., Gerasymova, I., Fushtey, O., 
Logutina, N., Kalashnik, N., Kylivnyk, A., Haba, I., Matviichuk, T., 
Solovyov, V., & Maksymchuk, I. (2020). Studying Innovation as the Factor 
in Professional Self-Development of Specialists in Physical Education and 
Sport. Revista Romaneasca Pentru Educatie Multidimensionala, 12(4), 118-136. 
https://doi.org/10.18662/rrem/12.4/337  

Savchenko, O. Y. (2007). Theoretical approaches to defining the quality of school 
education. Pedahohika i psykholohiya [Pedagogy and Psychology], 2, 26-34. 
https://scholar.google.com.ua/scholar?hl=ru&as_sdt=0,5&cluster=45489
8424665960140  

Serhiienko, N. (2010). Orhanizatsiyno-metodychni umovy rozvytku profesiynoyi 
kompetentnosti vchyteliv zahalnoosvitnikh navchalnykh zakladiv 
[Organizational and methodological conditions for developing professional 
competency in comprehensive schoolteachers]. Teoriya ta metodyka 
upravlinnya osvitoyu, 3, 23-26. http://tme.umo.edu.ua/docs/3/10sereet.pdf   

Shchukina, G. I. (1988). Pedagogicheskiye problemy formirovaniya poznavatelnykh interesov 
uchashchikhsya [Pedagogical problems of forming cognitive interests in 
pupils]. Pedagogy. 

https://doi.org/10.1111/j.1751-228X.2011.01120.x
https://doi.org/10.1111/j.1751-228X.2011.01120.x
https://doi.org/10.18662/rrem/12.4/347
https://doi.org/10.18662/rrem/12.3/307
https://doi.org/10.18662/rrem/12.3/308
https://doi.org/10.18662/rrem/12.4/337
https://scholar.google.com.ua/scholar?hl=ru&as_sdt=0,5&cluster=454898424665960140
https://scholar.google.com.ua/scholar?hl=ru&as_sdt=0,5&cluster=454898424665960140
http://tme.umo.edu.ua/docs/3/10sereet.pdf


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Artificial Intelligence and Neuroscience                                      Volume 12, Issue 4 

 

328 

Sheremet, M., Leniv, Z., Loboda, V., & Maksymchuk, B. (2019). The development 
level of smart information criterion for specialists’ readiness for inclusion 
implementation in education. Information Technologies and Learning Tools, 
72(4), 273-285. 
https://journal.iitta.gov.ua/index.php/itlt/article/view/2561 

Usova, A. V. (2000). Chtoby ucheniye stalo interesnym i uspeshnym [Making 
teaching interesting and effective]. Pedagogika, 4, 30-33. 
https://www.elibrary.ru/item.asp?id=9268402 

 
 
 

 

 

https://journal.iitta.gov.ua/index.php/itlt/article/view/2561
https://www.elibrary.ru/item.asp?id=9268402