=Paper=
{{Paper
|id=Vol-2387/20190358
|storemode=property
|title=Experience of Developing and Implementation of the Virtual Case Environment in Physics Learning by Google Services
|pdfUrl=https://ceur-ws.org/Vol-2387/20190358.pdf
|volume=Vol-2387
|authors=Irina Korobova,Nataliya Golovko,Tetiana Goncharenko,Olha Hniedkova
|dblpUrl=https://dblp.org/rec/conf/icteri/KorobovaGGH19
}}
==Experience of Developing and Implementation of the Virtual Case Environment in Physics Learning by Google Services==
<pdf width="1500px">https://ceur-ws.org/Vol-2387/20190358.pdf</pdf>
<pre>
  Experience of Developing and Implementation of the
Virtual Case Environment in Physics Learning by Google
                       Services

     Irina Korobova 1[0000-0003-2653-277X], Nataliya Golovko 1[0000-0002-9011-65], Tetiana
           Goncharenko 1[0000-0002-2021-9320], Olha Hniedkova 1[0000-0001-5194-2194]
       1Kherson State University 27, Universitetska st., Kherson, 73000 Ukraine

 irinakorobova8@gmail.com, nataliyaklimenkogolovko93@gmail.com,
          goncharenkokspu@gmail.com,gnedkova@ksu.ks.ua



       Abstract. The development of information and communication technologies
       (ICT), artificial intelligence, cloud computing, data science, digital platforms
       etc., causes changes in methodical means of teaching to increase the use of
       educational computer systems. Today, open information systems, global
       educational networks, digital resources going beyond the boundaries of separate
       educational institutions are developed. For example, Google services allow
       teachers to design the virtual educational environment with electronic
       educational resources, taking into account the individual characteristics of the
       students, the geographic region and the social structure of the country. In recent
       years, the education of Ukraine is oriented on the STEM education. The STEM
       centers, courses, curricula, information resources are developed. It promotes the
       choice of young people in engineering and technological professions. In the
       article, we analyze the particularity of Physics as a STEM discipline, and describe
       the experience of developing and implementation of the virtual case environment
       in the Physics learning by means of Google services. It promotes the involvement
       of students in research, the use of digital technologies in Physics learning. The
       implementation of the ideas of STEM-education on the basis of the Laboratory
       of Physics and Educational Technologies of the Kherson State University is
       presented.

       Keywords: STEM education, case method, Google services, virtual case
       environment, informational computer technologies (ICT), Life Long Learning
       (LLL), curriculum.


1      Introduction

The international community defines education as one of the main global priorities, the
main driving force of people’s empowerment [1]. The goals of the National Strategy of
Ukraine Education Development for 2012 - 2021 are: increasing the access to
qualitative, competitive education for Ukrainian citizens in accordance with the
requirements of society’s innovative development, the citizen’s economy; ensuring
personal development in accordance with individual inclinations, abilities, and needs
based on lifelong learning [2]. Understanding of the research potential development
and strengthening of the system of natural sciences and engineering education
contribute to a sustainable future of the countries [3]. STEM education is developed
and used all over the world. Case method as a learning tool can help attract students to
research in any disciplines, particularly in Physics, using interdisciplinary connections
with natural sciences, mathematics and computer science.
   The aim of the article is to present the experience in developing and implementing
of a virtual case environment in Physics learning by Google services and results of
improving the students’ learning quality in Physical education.


2      Related Works

The analysis of Internet resources states there are a number of organizations, platforms
and educational resources that help teachers to implement STEM education in different
disciplines.
   The largest and most popular ones are:1) STEM.org is an American private
organization. It serves schools, organizations in more than 25 countries of the world. It
develops the curricula, content, manuals, course’s materials for commercial and non-
profit organizations [4].2) STEM learning works with the support of the UK
Government, charitable foundations and employers. It seeks to increase the
involvement of young people in STEM. It has the network of 19 Centers of STEM
Ambassador Hubs throughout the country; it coordinates the work of volunteers who
provide support and help in STEM education implementation [5].3) Inclusive Stem (I-
Stem). It is the group of blind and visually impaired scholars from India. They aim to
make natural science education more accessible by applying of STEM education. The
main goal is to help people with special abilities to participate in new technologies
development [6].
   These resources provide services aimed at helping teachers and anyone to develop
STEM education. There are a lot of practical resources, thematic magazines, upcoming
events that will be held in STEM-education (hackathons, courses, seminars). Many
companies offer scholarships for teachers, lecturers.There are a lot of STEM contests,
competitions: “Student Spaceflight Experiments Program”, “TOMATOSPHERE”,
“The FIRST Robotics Competition”, “NASA Swarmathon University Challenge”,
“MUREP Aeronautics Scholarship and Advanced STEM Training and Research
Fellowship”, “MUREP Aerospace Academy”, “MUREP Institutional Research
Opportunity” [7]. It is worth to identify the scientific festival “CITY OF STEM” in Los
Angeles. It is designed to show the importance of science, technology and engineering
not only during the festival, but throughout the year. It brings together all the LaSTEM
communities (Louisiana Advisory Council). It is promoted and monitored by STEM
education programs [8; 9].
   Introduction of STEM education in Ukraine is presented as the main direction of the
education reorganization according to the concept of New Ukrainian School (NUS).
“Plan of the implementation of STEM education in Ukraine” and “Methodical
guidelines of STEM-education applying in general education and out-of-school
educational institutions of Ukraine” was developed by the STEM Educational
department of the Institute of Education Content Modernization [10].
    The Plan provides the development of STEM centers/laboratories on the basis of
general education (regional support schools), out-of-school educational institutions,
and scientific laboratories. They should have the appropriate material, technical,
scientific and methodical base, and specialists for organizing of the effective
educational and scientific project activities. The activity of STEM-centers/laboratories
should be aimed at supporting and developing of STEM-education. There are
recommendations of the development of the All-Ukrainian Scientific STEM Center on
the website of the Institute of Education Content Modernization. It contains the
regulatory documents and information sheets for upcoming events. There are no
methodical guidelines (materials, curricula) for teacher’s use, etc. [11]. The list of NUS
trainers, Internet marathons, and online seminars for advanced learning of primary
school teachers were approved, but STEM-education for teachers of a general school
has informal form [12]. It is at the initial stage of development. It needs to be improved
in order to ensure the fulfillment of the new legislation norms.
    As for STEM curricula in other countries, they include real life situations and
problem’s solution to increase the learning impact. Learning technology of description
of real life situations is called “case method”. This technique is the best suited for the
NUS concepts implementation; it enables to bring the learning process closer to the real
needs of specialists in different activities. The teachers should properly use this
technique, have special skills and the thematic cases in the discipline or be able to
develop them.
    The analysis of Internet sources suggests: the problem of active methods use, in
particular the case method in Physics learning in secondary and high school, is being
studied by scientists to improve Physics learning quality [13, 14]; there are special
centers, in which the cases in various disciplines, including Physics are developed and
disseminated.
    For example, Stanford University uses “Case Method Teaching”. It is widely used
in many disciplines: students analyze real situations (cases). They are decision-makers
and propose the problem’s solution. Students should understand and analyze the data
of the case, consider the relevant theory, make conclusions and present solutions [15].
    The mission of the National Center for Case Study Teaching in Science (NCCSTS)
is the use of active teaching methods in natural sciences, with particular emphasis on
case study technology and problem-based learning. The reviewed case collection
contains more than 786 cases in all areas of science [16].
    Virginia University engages students in the discussions using the case study method.
At MBA program, students have possibility to explore more than 500 real business
cases. Each case is a set of decisions that should be made, and student, as a decision-
maker, should analyze the situation and express the opinion [17].
    However, the cases used in foreign educational institutions should be adapted for
Ukrainian curricula of education institutions. It is a problem. The dimensions of
physical quantities used in the cases are unusual for Ukrainian students. Analyzing the
literary and Internet resources, there is no platform or virtual environment that would
have ready-made cases and methodical recommendations for their use.
   The purpose of the research is to develop a virtual case environment that will help
teacher and student to interact with each other by case method. The introduction of the
competence approach and STEM education in the educational process requires the
development and application of innovative teaching materials. They should meet the
following requirements [18]: to be professionally oriented: to ensure a close connection
of education, life and future professions by updating the life experience by setting tasks
of real life (professional) situations; to be interesting for the student: to stimulate
cognitive interest by formulating tasks in the form of a problem, which represents a real
practical (life) tasks, the student will have in life and professional activity; to stimulate
students to creative work in the future profession, to form decision-making skills in
specific life situations by formulating tasks of different types - from reproductive to
research and creative ones; to provide the opportunity to choose the problem and the
way of its presentation by developing a system of problem tasks of an open, divergent,
pluralistic type (several variants of answers competing with each other in terms of truth)
[19].
   Our research shown that in Physics learning within the framework of STEM-
education, the definitions “Situational Learning” (a method for analyzing specific
situations) [20],“Case-method” [21], [19] ,“Case study” [22],“Casus method” (it was
written in the 20s of the 20th century), “Case-technology”, “Situational Analysis
Method” [23], ”Case Method Teaching” were required to process [15]. The name of
method comes from the English “case” –“case, situation” and “suitcase for storing
papers, magazines, documents” [19]. The essence of the case method is to analyze of
specially designed Physical situations, ways of the solution, to assess and predict of
consequences of the decisions. This method is widely used in business, marketing,
finance, etc. In recent years, it is widely used in school didactics, in particular, to
popularize the disciplines of the natural and mathematical cycle. In Physics study, this
method is useful and expedient. Students think Physics is an incomprehensible,
complex, not interesting, not necessary, “routine” science. The purpose of Physics
study is to obtain a good mark and get the certificate. It becomes more and more
difficult for a teacher to motivate students. Many schools do not have the necessary
material support (multimedia, laboratory and demonstration equipment); it causes
problems in Physics study. In case-method the student offers the variant of problem
solving, based on the knowledge, practical experience and intuition and own individual
abilities [23]. In the general case discussion, students identify the most significant
problems, analyze the information, select the most important information, offer the
possible solutions based on Physical knowledge and evaluate the probability of success.
Consequently, the application of the system of practical-oriented cases in Physics study
satisfies the above mentioned requirements. Students are able to solve not only abstract
tasks from the textbook, but apply the gained knowledge in practice. They accumulate
practical skills; develop analytical, creative and communication skills, volitional
qualities, purposefulness, creativity, ability to compete. Case-method helps students to
disclose the personal meaning of any educational material by themselves; it is one of
the basic requirements of the new Ukrainian educational standards.
3      Practical Implementation of Virtual Case Environment in
       Physics Study

The literary sources analysis of the case-method introduction in Physics study allowed
distinguishing the structure of the training case and didactic requirements.
   There is plot, informational and methodical parts in the structure of training case.
The plot is a description of a situation that contains information allowing understanding
the context of the situation, indicating the source of data acquisition.
   The information part of the case contains information that allows to understand the
algorithm of steps: a) a brief description of the problem, it is desirable to give some
different points of view; b) a certain chronology of the situation development with the
indication of actions or influential factors, it is desirable to evaluate the results of their
actions; c) the actions taken to eliminate the problem (if any); d) what resources can be
allocated for solving this situation.
   The methodical part of the case explains the place of this case in the structure of the
discipline, formulates the tasks for students and a guides for the teacher. Teaching guide
is not provided to students. The authors of the case should provide the specific
recommendations for the analysis of situations, the author's analysis of situations, and
the recommended methodology for conducting classes [23].
   The didactic requirements for the case are following: a) to be written in an
interesting, simple and profitable language; b) differ “dramatic effect” and problem;
clearly define the “core” of the problem; c) to show positive examples and negative
ones; d) meet the needs of the students, contain the necessary and sufficient
information; e) the text of the case should not propose any decision of the problem [23].
   In our research, we followed this structure of training cases. For example, the case
“Efficiency of Simple Mechanisms”, studied in the 7th class of secondary school is
presented (Fig.1).




      Fig.1. Training case “Efficiency of Simple Mechanisms” without Google services
In our research we developed the training cases (real life situations) in Physics. They
were divided into the following types: situations requiring an experiment, situations of
computation of tasks solution, case studies of historical nature (with the help of
instructions of teacher, students repeat experiments or imitate events that allowed
making the significant physical discoveries), video cases, combined (combining several
types). In order to form science and natural sciences competence, we developed a
system of cases. They were developed by Google services. In order to be able to use
the cases in any place and time, the problem of effectively cases’ presentation was
arisen. It was effective to develop the virtual environment. It gives access to study cases
on the lesson and in any time. It enables the teacher to use different organization forms
of student’s educational activities (individual, group, collective, self-study). According
to V. Bykov, the “learning environment” is an artificially constructed system, the
structure and components contribute to the achievement of the goals of the educational
process [24]. “Virtual case environment” is the software or platform used to provide
educational services using case-method. The authors’ experience in developing and
using the electronic learning environment in the methodical students’ learning (future
Physics teachers [25]) allowed highlighting the advantages of the virtual educational
environment. In particular, its advantages as a means of implementing the case-method
are: Visibility (the possibility of using illustrations, diagrams, video); Research
activities organization (students can use search engines to find answers to specific
questions); Accessibility and remotability (students have the opportunity to work at
home and in classrooms, from phone, tablet, PC etc.); Communicability (the connection
between the teacher and the student, the students in the group);Ability to check
homework and self-study activity of the student.
   Unfortunately, in today’s Ukrainian school the virtual learning environments are
hardly used by Physics teachers, because of the inability of most teachers to develop
the virtual learning environment. In order to provide the methodical assistance to
Physics teacher in designing the environment, we developed the virtual learning
environment for the implementation of case-method in a general school (Fig. 2).




              Fig.2. Model of educational process in a virtual case environment
The virtual case environment will allow organizing work efficiently, providing
visibility and dialoguing between teacher and students.
   The virtual learning environment for case-method implementing in Physics learning
was developed in our research. It is based on the use of Google-services that are widely
known to the Ukrainian community, students and teachers. But, despite the daily use
of these services, most users are not familiar with the full potential of Google products.
   To develop a virtual learning platform with cases, we used Google sites. To develop
a site, the user should have the Google account. The mode of site’s developing has a
simple and intuitive interface. The main page of the virtual learning environment
“Education platform”, based on Google site is presented (Fig. 3).




Fig.3. The main page of the virtual learning environment “Education platform”, based on Google
site

It is divided into two thematic blocks. In the first block, the cases are divided according
to the classes and the curriculum in Physics.
    So, the class is presented as a functional button, after clicking on it the page
containing a list of cases according to the topics in Physics is opened.The second block
“Thinking Physics” presents interesting situations that are not theoretically related to
the curriculum, but can be used as additional tasks. In “Development” mode, the teacher
has the ability to add presentations, documents, tables, calendar or learning videos from
YouTube, and preview the site. The site automatically adapts to the user's viewing on
a phone, tablet, or PC.
    Teacher has possibility to develop cases of two types: cases, the answers will be
automatically sent to the teacher; cases, the student should answer orally or writing the
solution in a notebook.
   To organize the verification of the cases’ correctness, it is expedient to use the
Google-forms. This service allows conducting surveys in the classroom and in extra
time (students’ responses are sent to the teacher's e-mail).
   We distinguished the benefits of cases, made using Google forms. Firstly, responses
of the surveys can be presented in the form of a table or diagrams. Teacher and students
are able to analyze, compare the results, develop problem situations, and discuss
situations. Secondly, teacher has the ability to check the level of mastering of the
learning material. Settings of this service allow the teacher to make time-based
response, to choose the answer from multiple questions or to set up the transition to the
next question based on the previous answers. For example, if the student chose the
incorrect answer (the wrong solution to the situation), then the link with theoretical
material is opened (Internet connection is required). Google forms provide an
opportunity to accompany the case with photos and video materials.
   The useful methodical feature is to create links in the text of the case. For curious
students (or as additional information for case solving), teacher is able to configure the
transition to additional educational sites. The useful links used in case solving are
presented on the site. To provide feedback between the teacher and the student, we
added the button “Ask the Teacher” on the virtual case environment. It works with the
help of Google Hangouts.
   Possibilities and advantages of case-method using and its implementation in Physics
study were presented to Physics teachers of Kherson and the Kherson region. The
teachers had advanced training courses in the Higher Education Institution “Kherson
Academy of Continuing Education”. Teachers were acquainted with the organization
of educational process in the modern fully-equipped “Laboratory of Physics and
Educational Technologies” of the Kherson State University. In particular, the
possibilities of the virtual learning environment based on Google services were
considered and the website (in test mode) with Physics training cases was presented.
Teachers had the opportunity to solve case studies and test the site. Teachers underlined
the importance of development of case studies in Google forms. Teachers pointed the
necessity of designing the methodical guidelines of the virtual case environment.
   The survey of 23 Physics teachers in the Kherson region to determine the level of
awareness and interest of teachers in the virtual case environment using was conducted.
The survey was conducted using the Google-forms, which allowed seeing the statistics
of responses and demonstrating them. For example, Question № 1, “Are you familiar
with the case method?” The positive answer was given by 78, 3%, but 21, 7%
respondents are not familiar with the case method (Fig. 4). So, the case method needs
to be more popular among teachers.
 Fig.4. Distribution of respondents’ answers    Fig.5. Distribution of respondents’ answers
 (Question 1)                                   (Question 2)




The results of the questionnaire gave reason to assert that 34, 8% of respondents tried
to use the case-method in their lessons: but 78, 6% would like to use ready-made cases,
and only 21, 4% seek to learn how to develop cases studies (Fig. 5).
   91, 3% of respondents noted the feasibility of the virtual case environment
developing. 4, 3% of teachers heard about this method, but they consider it
inappropriate to use in Physics classes. 43 % of respondents didn’t want to use case
studies in Physics classes because: low awareness of this teaching method (20%), lack
of ready-made cases studies (50%), difficulties in case lessons organization (30%) (Fig
.6). 82, 6% of teachers are in need of methodical support of using this method in
professional activity (Fig. 7).




 Fig. 6. Distribution of respondents’ answers   Fig.7. Distribution of respondents’ answers
 (Question 3)                                   (Question 4)

The analysis of the answers showed the use of the virtual case environment for the
implementation of the “case-method” technology in Physics learning is actual,
desirable for teachers, but teachers need methodical assistance in organizing of learning
process.
   So, we conducted the experiment using virtual case environment in Physics study.
Students of the 8th grade (28 students) of Kherson Academic Lyceum of Kherson State
University took part in the experiment. Learning materials of the cases were used in the
topic “Change of aggregate state of the material. Heat-Engines”. The use of case
materials positively influenced the mastering of material by students. We analyzed the
level of students’ knowledge mastering in “Temperature. Internal energy. Heat
transfer” (traditional learning methods were used) and “Change of aggregate state of
the material. Heat-Engines"(case-method was used).
   The results of the experiment were: the quantity of students with a low level of
knowledge in Physics was decreased by 11%; the greatest changes were among
students with a sufficient level of knowledge, the quantity was increased from 32% to
47%; the positive changes were among students who have a high level of knowledge
in Physics, the quantity was increased by 10%. The results are presented in (Fig. 8).




      Fig.8. Students' level of knowledge at the beginning and the end of the experiment

The statistical justification of the reliability of the shift towards increasing of the level
of learning material mastering by the students of the experimental group in of the case
learning environment implementation was carried out using the G-criterion of signs.
The results of the calculations showed that for the sample n = 22 (6 null shifts were
rejected) Gamp = 4, and Gcr = 5 (p≤0.01). The “axis of significance” (Fig. 9) was
constructed, we convinced that Gamp <Gcr.




    axis of significance                uncertainty axis               axis of insignificance




Fig.9. The “axis of significance” of the shifts in raising the level of learning material
mastering by the students
So, the use of the case-method in Physics study contributes to increasing the motivation
of students' learning activities and enhancement of the level of learning material
mastering by students.


4       Conclusions and Perspectives

The results of the research indicate that in the context of the active transformation of
education in Ukraine, special attention should be paid to a variety of new learning
methods; technologies that will help implement the ideas of STEM-education. Case
method is a learning technology, based on solving economic, social and business
situations. We studied the features of this method and interviewed the teachers in
Physics in cases’ using on the professional activity. Many teachers are not familiar with
the case-study method but they want to use it. The problem is the absence of ready-
made cases in different disciplines and the methodical guides. The developed virtual
case environment provides an opportunity to solve the described educational and
methodical problems of case-method implementing in Physics learning.
   The prospect of further research will be testing of the developed virtual case
environment into the educational process of other schools and the development of
methodical recommendations for ready-made cases.


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