Context

The Center for Combating Slave Labor and Human Trafficking (CETE) is based at UNEB Campus XVI in Irecê under the leadership of Prof. Dr. Ana Karine Loula Torres Rocha and her team including Prof. Ms. José Allankardec Fernandes Rodrigues and Prof. Dr. José Humberto da Silva (consultor). A key collaborator is UNEB’s Salvador campus, represented by Prof. Dr. Silvar Ferreira Ribeiro, Prof. Dr. Sônia Maria da Conceição Pinto, and Prof. Dr. Hebert Vieira Durães who coordinate open schooling initiatives. This initiative also receives support from UNEB’s Rector, Prof. Dr. Adriana dos Santos Marmori Lima, and benefits from international collaboration with the Open University UK, represented by Dr. Alexandra Okada.

In alignment with the UN’s Sustainable Development Goals (SDGs), particularly SDG 8 (Decent Work and Economic Growth), CETE utilizes open education and open schooling  including mobile technologies to promote economic growth, inclusive and sustainable employment, and decent work for all, as well as SDG 4 (Quality Education). The Brazilian Constitution of 1988 affirms work as a social right, ensuring dignity and social protection for workers. However, many still face exploitative working conditions; slave labour remains a criminal offense under Article 149 of the Brazilian Penal Code.

Education and Social Inclusion as a Strategy for Preventing Slave Labor

In this context, CETE was created, the first clinic in the Northeast with this focus, as a proposal to confront this reality; within it, we commit to our political, scientific, and social vocation based on the relationship between UNIVERSITY – TERRITORY – DEVELOPMENT from the perspective of sustainability, science, technology, and innovation with social responsibility and open schooling. Supported by the CARE-KNOW-DO framework, one of the initial challenges of this project is to engage adult learners in reflecting on the local context, contributing to raising awareness of the condition of slave labor.

As a strategy to confront this issue, it is necessary to strengthen the interdisciplinary support network, integrating areas such as education, law, and health, in pursuit of actions promoting decent work and protecting human rights in the workforce, prioritizing vulnerable individuals and communities, promoting equal opportunities, and proposing regional and local development strategies that foster community bonds and inclusive, sustainable economic growth.

Among the activities already developed by the University of the State of Bahia in teaching, research, and outreach is its strong connection with public basic education schools, directly interacting with administrators, teachers, students, and their families. Youth and Adult Education (EJA), one of these fields, targets individuals who missed regular schooling, comprising a group of men and women, workers who, as verified, fit the profile of those recruited for seasonal farm work. Focusing on these individuals can be a relevant strategy to prepare them to face this harsh reality. Educating, raising awareness, preventing, and training for more skilled jobs can certainly help reduce their vulnerability, preventing recruitment into this illegal activity.

The Connect 2030 Project, already underway in the region in the cities of Ibipeba, Lapão, Irecê, and Presidente Dutra, supports this process by delivering science education based on real socio-scientific issues, involving families, other societal segments, university scientists, and policymakers, contributing over the past three years to improve local education and projects for expansion and consolidation of its results.

Today, CETE is part of a network of legal clinics in Brazil addressing slave labor and human trafficking, including:

• Slave Labor and Human Trafficking Clinic at the UFMG Law School / MG;
• CETE: Anti-Slave Labor Clinic at UNEB / BA;
• Human Trafficking and Slave Labor Clinic at João Pessoa University Center – UNIPÊ / PE;
• CETE – Anti-Slave Labor Clinic – UFU Law School / Uberlândia / MG;
• Slave Labor Combat Clinic (CCTE) – UFPA / PA;
• Exploitative Labor Combat Clinic (CCST) – UFBA / BA;
• Slave Labor Clinic UNIFACIG / MG;
• Slave Labor Combat Clinic UNIPAC – Uberaba / MG;
• Human Rights Clinic at UFMT / MT.

CARE:
This open education community supported by open schooling highlights the following project goals:

1. Support and strengthen actions promoting Decent Work, developed by the public sector, social organizations, and private sector in the Irecê region;
2. Implement strategies promoting decent work with the protection of human rights in the workforce, prioritizing vulnerable individuals and communities, promoting equal opportunities, and proposing a regional and local development strategy capable of strengthening community bonds and fostering inclusive, sustainable economic growth;
3. Develop actions through social dialogue for mutual collaboration, respect, institutional capacities, and concrete actions, acting individually and collectively to promote decent work in the region, aiming at building a Network for Promoting Decent Work;
4. Undertake preventive, intervention, and follow-up actions for individuals who are victims of slave labor and human trafficking across various fields such as education, law, and health.

KNOW:

According to recent research, SmartLab 2023, in Brazil, among victims of slave labor, 64% are Black, with many having low levels of schooling, and most rescued victims are male (93%). In Bahia, Black individuals represent 80% of those rescued, with more than half not completing the 5th grade, and among them, 22% are illiterate. The majority are male (92%) and between 18-29 years old. Research by the Federal University of Minas Gerais (UFMG) identified that Irecê / Bahia / Brazil has the highest percentage of modern enslaved individuals on coffee farms in Minas Gerais. Victims of contemporary slave labor and human trafficking are in a situation of grave social and emotional vulnerability.

Through research conducted by the Federal University of Minas Gerais – UFMG, between 2002 and 2022, it was identified that the region of Irecê / Bahia / Brazil had the highest percentage of modern enslaved individuals on coffee plantations in the State of Minas Gerais: 420 individuals. Victims of human trafficking for purposes of labor analogous to slavery, by the end of July 2024, in the interior of MG, on coffee farms, totaled 46, with these numbers: São Gabriel (06) / Lapão (03) / Mirangaba (01) / Canarana (13) / Irecê (01) / Morro do Chapéu (03) / Jussara (14) / Ourolândia (02) / Cafarnaum (03); at the end of August 2024, in the Federal District, at Grupo Pluma farms, an additional 10 individuals were counted: Xique-Xique (06) / Nova Ibiá (02) / Bonito (02). All these people, victims of contemporary slavery and human trafficking, are in a situation of severe social and emotional vulnerability.

DO:

Working Groups:

• Guidance / Legal support;
• Psychosocial health;
• Scientific Studies and Communication;
• Responsible Research and Innovation;
• Open Education with Open Schooling supported by STEAM and e-artvism;
• Professional Training / Capacity Building.

Actions:

• Participation and Contribution to the I Regional Seminar in Irecê on Decent Work;
• Signing of a Commitment Agreement between UNEB and UFMG, in addition to the Regional Pact for Promoting Decent Work;
• CETE Itinerant;
• Creation of a Research Group registered with CNPq;
• Offering an elective course in undergraduate and graduate studies;
• Participatory Design of Resources, Technologies, and Pedagogies for Open Schooling to raise awareness, prevent, and empower through partnerships between schools, universities, and professional experts.

Partnerships:

• OAB; Junior Company – CONSOL; FAEB / SENAR;
• Secretariat of Labor, Employment, Income and Sport – SETRE;
• Decent Work Institute – ICT; Coffee Program;
• Global Fund to End Modern Slavery – GFEMS;
• Network of Legal Clinics in Brazil;
• Open University / UK.

Photo: CETE – at UNEB Campus XVI in Irecê

Photo: CETE – at UNEB Campus XVI in Salvador

The integration of e-artivism into the CETE initiative at UNEB demonstrates how art and activism can amplify awareness of human trafficking and slave labor, fostering community engagement and driving systemic change through open schooling. By creatively combining digital tools, storytelling, and visual media, e-artivism enables students, educators, and communities to confront the harsh realities of exploitative labor and human trafficking.

Through the CARE-KNOW-DO framework, e-artivism encourages emotional engagement (CARE) by using impactful narratives and visual campaigns that evoke empathy and understanding of victims’ realities. In the KNOW phase, participants engage in research and discussions, analyzing socio-scientific data on slavery and trafficking to deepen their knowledge and identify root causes. Finally, in the DO phase, e-artivism mobilizes communities to take action, such as creating educational resources, organizing awareness campaigns, and collaborating with local and national stakeholders to promote Decent Work (SDG 8).

This approach not only educates but also empowers individuals and communities to actively participate in combating exploitative practices. By embedding e-artivism into open schooling, CETE leverages the transformative potential of art and activism to create a culture of awareness, prevention, and advocacy, aligning with the principles of inclusive and sustainable development.

REFERENCES:

CETE website : 
https://www.ceteunebirece.org/

Nossa voz:
https://nossavoz.org.br

Literature:
Freire, P. (1996). Pedagogy of the oppressed (revised). New York: Continuum, 356, 357-358.
Freire, P. (1998). Pedagogy of freedom: Ethics, democracy, and civic courage. Rowman & Littlefield.

Research in the news:

Starbucks: slave and child labour found at certified coffee farms in Minas Gerais

 

Fonte:Imagem recorte do vídeo Trilhas da Pedagogia   –  Disponível:  IFECast https://youtu.be/RUkKhuhl–0?si=bfo0PIcXU_QVDIzq

Context:

This practice was part of the training of undergraduates in the Pedagogy Course at the Federal University of Cariri (UFCA), which was recently recognized with the highest score by the Ministry of Education (MEC). The course stands out for its interdisciplinary work, through which educators promote teaching, research, outreach, and culture.

This partnership with the Porteiras School began in 2022, due to research developed in the open schooling axis with digital technologies, in the Pedagogy course and a national partnership linked to CNPQ in which UFCA is connected to studies at UFRJ, UFF, PUC-SP, PUC-PR, UNEB, UFSC, and internationally with the Open University, with studies by Alexandra Okada.

One of the first challenges for Pedagogy undergraduates and basic education students was to open their windows. This process encouraged students to reflect on their local context, to investigate the socio-scientific topics that most interested them. Several disciplines were integrated, from the fields of art, technology, and curriculum, as seen in one of the videos from the exhibition of photo-narratives created by Francione Charapa, at IFE/UFCA.

After this journey of opening the windows for pedagogy students, we implemented an action-research project coordinated by Prof. Dr. Karine Pinheiro at Cirene Maria Esmeraldo School, involving research scholars such as Daniel Alberto, Emerson Gomes, Valeria Vieira, Vivila de Carvalho, Elizete da Silva, Luana Argentina, Marielly, and 85 pedagogy students. At Cirene Maria Esmeraldo School (Kessyo Santos, Thais Coelho, Maria do Socorro Silva and the basic education students at Cirene Maria Esmeraldo School in Porteiras), and in the cultural community at the Quilombo do Souza, with Master Maria de Tiê, Cyda Olímpio, Valéria Pinheiro CIAVATA, and Instituto Anjos Digitais. The project continues with the coordination of university extension activities, with the Freirean Movement led by Prof. Darliane Amaral and the appreciation of multiple cultural expressions, which was also supported by the Voices of Cariri Project, led by Prof. Dr. Ligia Rodrigues.

This open schooling community highlights two examples that integrate the use of digital technologies to support the training of educators focused on creative processes through various digital genres, fostering open schooling:

The first example was featured in the Teaching Initiation Program, particularly during the First Meeting of the Institutional Program of Teaching Initiation Scholarships (EnPibid/UFCA) and the First Meeting of the Pedagogical Residency Program (ERP/UFCA) at the Federal University of Cariri (UFCA). Approximately 20 papers were published by undergraduate students, who developed communication skills, teamwork, expanded vocabulary, and a decolonial perspective on the curriculum. As part of the intersectoral integration between the university and schools, 24 workshops and a thematic panel were developed in collaboration with the State University of Bahia (UNEB), alongside Professor Silvar Ribeiro. This connection reinforced the bond between the university, schools, and the community.

The second example refers to activities in a basic education school in the municipality of Porteiras, aimed at analyzing the educational projects developed by basic education students. These projects were aligned with the pillars of open schooling and the development of the C5 Generation (creative, critical, collaborative, communicative, and civic-minded). In both examples, literacy and scientific education were promoted from basic education onward, embedded within a cybercultural context, involving undergraduates, teachers, and students engaged in open schooling.

---

CARE:

The undergraduate students in the Pedagogy Program at the Institute of Educator Training were involved in research, outreach, and cultural projects tied to real-life themes from their community. These activities occurred both at the university, with courses like Digital Technologies and Pedagogical Innovations, and in basic education schools. Guided by Professor Karine Pinheiro, these initiatives expanded research in basic education and established partnerships between schools, the community, and the third sector, focusing on the creation of school projects using the open schooling approach.

---

KNOW:

The project engaged digital natives (Prensky, 2010), who developed creative processes through new digital genres, experiencing the power of technology to express ideas in multiple forms. We observed a growing use of video, with students sharing stories, reels, and TikTok videos. Consequently, the cultural practice of using images was intensified with audiovisual production, marked by the multimodal nature of language in the cybercultural context (Santos, 2014). Through various disciplines, students experienced this new approach, incorporating fieldwork where they encountered popular, scientific, and cultural knowledge, all of which had unimaginable impacts on open schooling (Okada, 2016).

In addition, several workshops were designed to map concrete issues and geographic areas using Google Earth to identify locations, aiming for authentic co-learning.

---

DO:

The educational projects developed by students during 2023-2024 involved multiple societal actors, reinforcing democratic practices, valuing diversity, promoting solidarity, and addressing environmental issues. These initiatives fostered autonomy, helping students become active citizens within their community. This process was grounded in the principles of open schooling for the development of scientific education, open access, public engagement, and governance.

Through these activities, students became cultural producers on themes such as solid waste, cultural heritage, water conservation, and animal protection. Another highlighted competence was the expansion of socio-scientific vision. Both basic education and university students presented their projects at scientific events. As a result of this study, we introduce a Podcast Channel with around 1,800 views, showcasing the active involvement of cultural practitioners, who became reflective producers and developed a situated practice through continuous debate. The impact of this activity at the UFCA Brejo Santo campus became “glocal” (Silva, 2005).

---

Image – Recycling Workshop and Selective Waste Collection Campaign
Source: Produced by the authors

---

Results from Teachers (Six basic education teachers from Cirene Maria Esmeraldo Municipal School):
Pedagogical innovation using real, relevant contexts for students related to:

• SDG 15 – Animal protection, solid waste management
• SDG 4 – Cultural heritage
• SDG 16 – Water conservation

Publication of 14 scientific papers: ENPIBID/2023, IV Biology Meeting (IFE/UFCA).

---

Results from Undergraduate Students – Pedagogy (85 students) and Basic Education Students (Municipality of Porteiras):

Creation of an educational device – IFECast: My Community, a project involving interdisciplinary undergraduates and pedagogy students. The project involved various pedagogical moments for engagement within the IFE/UFCA community, through open schooling, exploring identity, meaning, and practice. This was facilitated by problematizing their reality.

We share the channel for this C5 Generation of Co-Entrepreneurs – IFECast: My Community, featuring audiovisual narratives about field visits to quilombola communities, environmental trail discoveries, storytelling creation, photo-narrative exhibitions, and interviews that inspired teaching discoveries through diverse digital genres. About 45 videos are available at: YouTube Channel: IFECast: My Community and on Instagram at: @ifecast_ufca.

The central idea of the activity was to spark students’ curiosity by using news stories to connect science content to everyday life. The goal was for students to understand the relationship between the nervous system and the impact of psychoactive substances on the body, promoting greater interaction with their families and extending reflection beyond the classroom. Additionally, students were encouraged to engage with scientists to foster interest in pursuing STEM or science-related careers.

As part of the activities, teachers were given suggestions aligned with the National Common Curricular Base (BNCC), specifically for the 6th grade, within the thematic unit “Life and Evolution.” Among the suggested skills, students worked on explaining the functioning of the nervous system and how it can be affected by psychoactive substances (EF06CI10), as well as justifying the role of the nervous system in coordinating motor and sensory actions based on its structures (EF06CI07).

Throughout the project, teachers had the freedom to apply Augmented Reality (AR) cards as they saw fit, promoting a dynamic and tailored exploration of the content for the students.

The students participated in a series of activities in three distinct phases, aiming to explore the functioning of the nervous system and the impact of psychoactive substances on the body using AR technologies and interactions with scientists.
– CARE: Students were encouraged to care about everyday issues raised by a news story related to the use of psychoactive substances. They explored how the nervous system can be affected by these substances using AR cards to visualize neurons, axons, and dendrites. This phase piqued students’ curiosity and motivated a deeper exploration of the content.
– KNOW: Students discussed the role of the nervous system in coordinating motor and sensory actions of the body. They also addressed how science can clarify the damage caused to the body by psychoactive substances and discussed the social impacts of substance consumption. The class listed the main problems related to the topic, broadening their understanding of the associated risks.
– DO: Students were encouraged to take the knowledge they acquired to their families. They were tasked with discussing the subject at home and bringing questions and curiosities to the scientists. Families also proposed actions to combat the problems identified in the previous phase, and students brought these ideas back to the classroom in the following session.

In the **Closing** phase, students watched a video with a guest scientist who answered their questions and explained how knowledge of the nervous system is related to their field of expertise. This brought students closer to scientific practice and stimulated their interest in scientific careers. After the video, students completed a questionnaire about the activities and the knowledge they had gained.

 

Teacher Training: A 60-hour course trained 1,000 public school teachers across Brazil in using augmented reality (AR) content in the classroom. The activities aimed to engage students with real-world questions and problems, encouraging them to explore and acquire knowledge through reflection with AR, as well as through practical actions involving the community and family. These discussions extended beyond the school environment, adhering to the principles of open schooling.

Project Focus: The project centred on:

• Effective Learning: Promoting digital AR skills through exploration, visualisation, discussion, and visual comprehension.
• Inclusion, Equity, and Gender Equality: Enhancing multi-literacy for both youth and adults.

All content aligned with the subjects teachers already cover in class, but with an open schooling approach—addressing real-world issues relevant to students and applying this knowledge in the community.

 Safe and Inclusive Learning Environments: Teachers reported that the project significantly enhanced learning environments by offering engaging, immersive, and innovative digital content. Promoting science through digital education aligned with new teaching methodologies for future generations. The project gained recognition from Brazil’s Ministry of Science, Technology, and Innovation.

Recently, President Lula signed the National Digital Education Plan into law. The AR project in schools represents a major contribution to promoting open science, aligning its content with the National Digital Education Plan and the National Common Core Curriculum (BNC

**Teaching Results**
The results showed varying levels of teacher confidence regarding the activities:
1. **Small Group Discussions (A08)**: 83% of teachers felt confident.
2. **Use of Questions for Divergent Thinking (A07)**: 76% of teachers felt confident.
3. **Interaction with Researchers and Scientists (A05)**: 71% of teachers felt confident.
4. **Encouraging Participation in Science Activities Outside School (A04)**: 71% of teachers felt confident.
5. **Promoting Discussions on Science and Society (A02) & Helping Generate Evidence-Based Questions (A03)**: Over 70% of teachers felt confident.
6. **Teaching Scientific Inquiry with Real-World Problems (A01)**: 65% of teachers felt confident.
7. **Encouraging Discussion of Scientific Topics with Family (A06)**: 66% of teachers felt confident, with 24% feeling less confident.

In all activities, only a small percentage (less than 5%) felt very unsure.

**Learning Outcomes**
Students generally demonstrate a positive attitude toward science and its importance. The vast majority (82%) agree or strongly agree that learning science will be useful in their daily lives. Even more (86%) recognize the importance of science, technology, and mathematics for problem-solving.

There is a strong belief (87%) among students that science helps people worldwide lead pleasant and healthy lives, indicating an understanding of science’s global impact.

However, when it comes to personal confidence in science, the results are more mixed. Only about a third of students (31%) feel confident in their science knowledge, with a similar proportion (31%) feeling confident using mathematics to solve scientific problems. Slightly more students (42%) feel confident using science to generate questions and ideas.

Students show more confidence in their ability to justify views using arguments and evidence, with 43% feeling confident in this area. This suggests that while they may not feel as confident in their scientific knowledge, they have developed some critical thinking skills.

Regarding practical application, nearly half of the students (48%) feel confident in doing science projects with colleagues, family, and scientists. A similar proportion (49%) feel confident talking about science, indicating a willingness to engage with scientific topics.

Encouragingly, the vast majority (80%) of students express interest in doing projects with others using science, suggesting a desire for collaborative, hands-on learning experiences in science.

When it comes to enjoyment and future aspirations, 57% of students find learning science fun. However, opinions are more divided on career prospects, with 42% interested in a job that uses science, and 37% aspiring to be seen as experts in science. These results highlight the importance of integrating engaging pedagogies with the meaningful use of AR for immersive learning across all areas, supporting sustainability goals.

Overall, while students generally recognize the importance and value of science, there is room for improvement in building their confidence and skills in scientific practices. The data suggests that hands-on, collaborative approaches to science education might be particularly well-received by students.

E-artivism played a central role in bridging scientific content with artistic and technological expression. The use of AR cards to visualize the nervous system and the effects of psychoactive substances brought abstract scientific concepts to life in vivid, accessible ways. This approach aligns artistic tools to transcend traditional barriers, making complex ideas more relatable and fostering curiosity. Students were not only learning science but also co-creating visual representations that connected their knowledge to broader social and environmental themes.

The CARE-KNOW-DO framework further supported this e-artivism approach. In the CARE phase, AR visuals sparked students’ curiosity and encouraged them to explore how psychoactive substances impact the nervous system, creating a personal and emotional connection to the topic. The KNOW phase fostered deeper understanding through discussions about the role of the nervous system and the broader societal implications of substance use. Finally, the DO phase transformed this knowledge into action, as students extended their reflections to their families and communities, proposing tangible solutions to combat the issues identified.

Through collaborative activities, such as interacting with scientists and creating evidence-based questions, students became active participants in scientific inquiry and advocacy. These experiences embody the principles of e-artivism by merging technology, creativity, and activism to address real-world challenges in meaningful and engaging ways.

By linking science education with e-artivism, this initiative helped students become confident, collaborative, and creative learners who see science as a tool for positive societal change. The immersive and interactive approach not only improved their understanding of scientific concepts but also encouraged them to take ownership of their learning and apply it to real-world contexts, reinforcing the transformative potential of e-artivism in fostering sustainable development.

Links:

https://veja.abril.com.br/saude/estudo-mostra-que-31-de-internados-por-trauma-consumiram-alcool-ou-drogas/

https://gauchazh.clicrbs.com.br/cultura-e-lazer/cinema/noticia/2022/08/anne-heche-estaria-dirigindo-sob-efeito-de-drogas-e-acidente-passa-a-ser-investigado-como-crime-cl6plfv7o007x017pmubjxgim.html

https://www.gov.br/prf/pt-br/noticias/estaduais/piaui/2022/setembro/em-piracuruca-prf-prende-homem-por-conduzir-veiculo-sob-efeito-de-drogas

https://www.sbtnews.com.br/noticia/sbt-brasil/213366-caminhoneiro-sob-efeito-de-drogas-atinge-carros-e-casas-em-belo-horizonte

Results
[00:12, 04/10/2024]   Students

https://openeducation.eu.qualtrics.com/reports/public/b3BlbmVkdWNhdGlvbi02NDRiYWUxNjY0NmMyOTAwMDhlYjhhNWYtVVJfYnlMM3lKSFY0YlBxUkhE

[01:16, 04/10/2024]  Teachers https://openeducation.eu.qualtrics.com/reports/public/b3BlbmVkdWNhdGlvbi02NDc3ZTY1M2IyYTU4MjAwMDhlYjZhODMtVVJfYnlMM3lKSFY0YlBxUkhE

This project was carried out with traditional communities, focusing on digital literacy, sustainable development and solidarity economy. These activities were integrated into local practices of handicrafts and family farming, two key economic pillars for these communities. Additionally, the project emphasized gender equity, giving a voice and space to women, the majority of whom are homemakers, students, and teachers. The participants’ ages and occupations were diverse, including young adolescents in basic education, teachers, and artisan workers. There was also significant ethnic diversity, representing different traditional ethnic groups from Ceará. The project incorporated Sustainable Development Goals (SDGs) 4 (Quality Education), 5 (Gender Equality), 10 (Reduced Inequalities), and 11 (Sustainable Cities and Communities), aiming to bring real and sustainable change to the lives of these communities.

Theme: Digital literacy, sustainable development and solidarity economy were the central themes of the activities. Digital literacy was seen as an essential tool for the participants, allowing them not only to learn how to use technology but also to apply it in their daily realities, especially in strengthening their economic initiatives. The sustainable development and solidarity economy was explored as a collaborative model, where artisanal production and family farming are viewed not just as sources of income but also as forms of resistance and autonomy for these communities.

CARE: One of the standout groups was “Trama de Mulheres Pretas” (Weave of Black Women), which has a long tradition in producing handicrafts and local foods. These women faced several challenges in using digital technologies, especially in seeking information, communicating, and promoting their products. The lack of access to technology and initial unfamiliarity with its potential hindered their economic growth and the visibility of their work. However, with the project’s support, they gradually overcame these barriers, acquiring new digital skills that allowed them to expand their networks and reach new markets.

KNOW: Knowledge sharing was one of the pillars of the project, particularly in terms of forming associations and strengthening local entrepreneurship. Through workshops and continuous training, participants developed skills in management, organization, and marketing of their products, increasing their ability to act independently. Furthermore, understanding the dynamics of the solidarity economy was crucial for the women to realize the power of cooperation and self-sufficiency in their communities. They began to see their traditional practices in a new light, integrating them into a broader context of collaborative economy.

DO: One of the project’s most significant outcomes was the production of videos by the participants themselves, in which they shared their stories, challenges, and achievements. These videos were published on YouTube, serving as a platform for their voices to be heard beyond local boundaries. This initiative not only expanded the visibility of the women’s work but also boosted their self-esteem and recognition of their capabilities. The creation of these videos was an empowering process, where each woman could share her journey of overcoming obstacles and personal growth, inspiring other women and communities.

Impact on Education: The project had a profound impact on how the participating women and their communities viewed education. By addressing local problems collaboratively, the project facilitated co-learning between the women and the facilitators, aligning the training with the challenges faced by the communities. This process resulted in a deeper understanding of the challenges encountered by the women in both personal and professional spheres. The unity and solidarity that emerged from this shared learning strengthened bonds among the participants and generated collective solutions to the problems they face daily.

Impact on Participants: Through observation and active engagement in the project, the women rediscovered the “right to dream” and began to believe in the possibility of improving their lives. Many reported that before the project, they felt limited by circumstances and the few opportunities available. As the activities developed, they started to envision new horizons. One of the participants summed up this transformation by saying, “Today I give myself the right to dream, and I can improve my life.” Another added, “Now I can dream.” The contact with other women involved in the project brought strength and motivation to the trainers, educators, and managers from the NGO Anjos Digitais, as one of them shared: “Being in contact with these women gives me strength. Even though it seems small, it’s enormous for them.” The experience also highlighted the importance of affection and mutual support, creating a space where everyone could learn and grow as equals. “We arrived as equals and co-learned together, on equal footing,” said another participant, reflecting on the spirit of cooperation that permeated the entire process. This feeling of unity and solidarity, through the “CARE-KNOW-DO together,” filled the hearts of the participants with love and energy, empowering them to face new challenges and paving the way for future actions.

 

The project “Knowledge and Experiences with Traditional Communities of the Maciço do Baturité” exemplifies e-artivism by blending digital literacy, cultural preservation, and storytelling to empower communities and amplify their voices. Through the integration of traditional crafts and family farming with digital tools, participants transformed their practices into acts of advocacy, highlighting the importance of local culture and economic autonomy.

By producing videos to share their stories and challenges, participants used digital platforms as tools for creative expression and activism, expanding their reach and fostering awareness beyond local boundaries. This digital storytelling not only promoted their work but also inspired broader audiences, turning their personal narratives into a collective call for social and economic justice.

E-artivism in this project bridged traditional knowledge with modern technology, fostering co-learning and collaboration. Participants gained skills that allowed them to actively engage with and address pressing issues in their communities while creating opportunities for sustainable development. This initiative demonstrates the transformative potential of e-artivism to combine art, technology, and activism in creating pathways for empowerment and lasting change.

For more details: https://anjosdigitais.org/

Care:

Greece is dealing with some serious climate issues lately. Students are seeing more heatwaves, droughts, and wildfires, all made worse by climate change. The Mediterranean area, where Greece is, is especially at risk. During the summer of 2021, there were huge wildfires that destroyed forests, homes, and people’s lives.  Students considered weather forecasting  important for various reasons:

• Disaster Prep: Knowing the weather in advance helps us get ready for extreme events like heatwaves, storms, and wildfires, making them less deadly and damaging.
• Farming: Farmers need weather forecasts to decide when to plant, water, and harvest their crops.
• Public Safety: Forecasts help keep people safe by warning us about extreme temperatures and bad air quality.
• Tourism: Tourism is a big deal for Greece’s economy, and weather conditions can seriously affect it. Good forecasts can make sure tourists stay safe and have a great time.

Know: Students conducted a research project on meteorology, focusing on cloud classification and weather systems. They learned that Luke Howard introduced the three main cloud types—cumulus, stratus, and cirrus—in 1803, and in 1918, it was discovered that weather changes are caused by the interaction of warm and cold air masses.

Do: Using AI, the students classified clouds into 10 subcategories based on altitude. They trained a neural network with photos of different cloud types, testing its accuracy with new images. The project included developing a mobile app for cloud identification and correlating the AI predictions with data from their school’s weather station to forecast local weather

AI for SDG 13: Climate Action

Findings related to the Open Schooling approach: The activities carried out during the implementation of the Connect project were included in the upper secondary curriculum – Information Technologies (IT). We can also mention that the materials provided were useful in preparing and implementing lessons with students. The topic addressed was also relevant and innovative from a scientific and educational point of view, being debated globally. Thus, students had the opportunity to know and experience individually the ways in which they can get involved in predicting weather and support climate action enhanced by Artificial Technologies.  Open schooling was found useful  for other teachers because students  focused on activities connecting various subjects supported by transdisciplinarity approach and an exchange of good practices can be made between teachers who have implemented in different schools who want to join us.

Student achievements: Students were enthusiastic to participate in volunteering and greening activities where they could observe, for example, classification of clouds, how to use drones, and develop a learning machine system trained to examine photos and classifying images. This process helping to plan better interventions for climate change and improve quality of life. 

The students involved have formed their scientific research skills, actively participating in the realization of projects and studies on Artificial Intelligence, being able to apply the knowledge learned after going through the support materials coding and using ML for kids tool.

Care: The students were involved and interested in a real-life problem: to what extent the environment contributes to the sustainable development of mankind through planting trees by students, either from saplings or seeds.  The students who participated in the activities were of secondary level, aged 11-14 years.

Know: Students used knowledge about sustainable development, environment, food resources and environment.  The competences that the students practiced were:

– Analyzing the impact of technology development on the environment and society 

– Training the capacity for design, execution, evaluation, use and capitalization of products

– Evaluation of personal resources and formation of initiative and entrepreneurship spirit in career planning.

Do: In the end, students prepared posters and planted trees in the school garden, carried out the activities both in groups and individually, being supported by families and community members.

* Identifying the possibilities of capitalizing on food products of mineral, vegetable and animal origin 

*Analysis of links between food production activities and specific trades/professions

– Description of the main resources needed to carry out family production and consumption activities

Findings related to the Open Schooling approach: The activity is part of the curriculum at the school’s decision. It was useful, relevant, challenging, innovative and contributed to the formation of the above-mentioned skills. Open schooling could be challenging for other teachers as it contributes to civic spirit and sustainable development.

Student results: Students were interested in this type of project, because it adds value to sustainable development and environmental protection. They proved pleasure in carrying out practical activities and formed social-moral skills in Open Schooling. The most relevant comment of a sixth grader was: “The world develops from seed and everything is possible through the evolution of science and God’s care.”

Care: Students were involved, interested or concerned about monitoring the state of forests Protected Natural Area – Plopeni Forest and Glodeasa Forest, a real-life problem, the vegetation state of the forest, the age of trees, the diameter of trees, their height.  Students who participated in the activities were 17-19 years old, eleventh and twelfth grades, forestry and natural sciences.

Know: Students used knowledge about forestry, environment, ecology.  The competences that students practiced were the ability to use measuring instruments, to correctly determine diameters, tree heights and appreciation of their ages, students’ questions were related to the composition of the forest and the presence of dead wood fallen to the ground that has not been extracted, maintenance of forest roads, information and clarifications that were presented and explained by both guiding teachers and partner representatives,  all of which can be found in individual student portfolios.  

Do: At the end, students prepared posters, campaign, infographic, video, interviews. They made PPT presentations, portfolios and were supported by families and representatives of the above-mentioned partners, former students of the college.

Findings related to the Open Schooling approach: The activity was framed in C.D.L., in the curriculum. It was useful, relevant, challenging, innovative, interesting and appealing, as evidenced by the attached photos. Open schooling could be useful for other teachers because it has an inter and transdisciplinary character – practical applications, worksheets from the work for obtaining the first didactic degree of Professor Ifrimu Iulia – Apprendre et developper le lexique du domaine forestier: approches didactiques en classe de FLE.

Results obtained  by students: Students were curious, pleasantly impressed, attracted by field trips, whose memory created confidence that they will become students of forestry and biology faculties in the future. As an example, one student mentioned: “it is much easier to determine the height of trees with state-of-the-art devices – vertices than with old dendrometers in the school’s equipment” which is relevant and related to their achievements.

“CARE” Phase: Students brought up themes such as combating COVID; recycling; conservation of city gardens; care for local squares, and the most popular topic was the Lago de Olarias, a public park recently inaugurated in the city, which has brought much development to the lake area. It is a project still in development and has caught the children’s attention for the care and development of the city. Real-life problems were discussed in groups, where students could contribute ideas and knowledge they brought from home, through the discussions they had with their families. They contributed historical facts, family memories, and many different knowledges. This caught the attention of students who brought other subjects. The fact that the lake is a new place in the city and is still in development, drew even more attention from the students. They were interested in understanding how they could contribute to the care of the place. The students who participated in the activities were from 3rd, 4th, and 5th grades of the early years of Elementary Education. Approximately 230 students.

“KNOW” Phase: Students used their knowledge about pollution, watersheds, groundwater, riparian forests, relief, sustainability, recycling, citizenship, among others. The most interesting stages were the initial discussion; preparing questions for the specialists and for a lecture with the former mayor who inaugurated the place; visiting the site and developing hypotheses to solve the problem of stream pollution.

“DO” Phase: In the end, students prepared a community awareness campaign about the source of the waters feeding the city’s main lake. They developed pamphlets and videos with messages of care and social responsibility. The activities were completed in groups and supported by the school and social community, such as local volunteers, politicians, among others.

Findings related to the Open Schooling approach: The activity used the open scenario method, conducted according to the responses that came from the participants. The curriculum was relevant and engaging, and teachers felt challenged, as they needed to acquire knowledge as doubts and questions arose. Open schooling can be very useful for other teachers because it expands the school curriculum, brings lightness and reality to the presented content, brings information and support for the continuous training of teachers, and makes 21st Century Education happen in the classroom.

Students’ outcomes: The students’ results showed involvement and interest throughout the project, including proposing new problems and developing projects that will become annual projects in our school environment. Talking about pollution and water distribution brought an interest in energy consumption, renewable and non-renewable sources, and a general sense of responsibility for the school community. For example, one student mentioned, “how good it is to be in a school that cares and helps us make a difference in our local community.”

Care: Students were interested in and investigated the special characteristics of the island through the online collection of data on the natural & technical environment of Lefkada’s island. The pollution of the natural environment, especially the coastal shores is a real-life problem where in many cases, the natural environment can be turned into an unjustified receiver of pollutants by local and tourist activities. This could negatively affect the island’s natural environment in the future. The students who participated in the activities were twenty-one (21), male and female students of the A and B Grades of the 2nd Experimental Lyceum of Lefkada, aged 16-17.

 

Know: Students used knowledge about of Natural Sciences such as Biology, Chemistry, and Physics. Biology was used as a basis for understanding ecology and ecotoxicology. The skills that the students practiced were multiple such as:

• Investigative method (inquiry-based learning) with question definition, research design, research conduct, results, resulting in the strengthening of students’ scientific thinking.
• Application of scientific methodology and utilization of environmental science elements.
• Cooperation with the scientific and local organizations of the island related to the environment.
• Collaboration with universities and research institutions for information exchange.
• Use of ICT (Information and Communication Technologies) to visualize the natural environment of Lefkada through the Google map and FILOTIS – Greek Nature Database, using the iNaturalistGR database.
• Investigation and presentation of the work plan (development of critical thinking, creativity, communication).

 

Do: At the end, the students prepared an electronic informational material which they posted on the school’s website. This was after a metacognitive evaluation of the data on Lefkada’s geophysical characteristics and the potential areas of pollution on the island. They also published an article in the school newspaper about the natural environment of the island. In the article, the students proposed ways to protect the environment, especially in the summer months when tourism increases. With the help of the Biology teacher in charge, the

students created a poster that refers to their actions in relation to the study of biodiversity and the study of potential pollution areas on the island of Lefkada. In addition, the students’ work was presented at the annual event of the Excellence and Creativity Clubs and activities of the current school year 2023, at the 2nd Experimental Lyceum of Leukada. The President of the Governing Committee of the Model Experimental Schools, Mr. Tombras, the mayor of the city, teachers, representatives of local agencies, and students of the school were invited to the event. They completed the activities as a group and were supported by their family, and their classmates by sharing good practices and ideas. The parents were especially supportive of the students as they helped them search and record reports on the pollution phenomenon, twenty years ago on the island.

 

Findings related to Open Schooling approach: The activity was fitted and adapted to the curriculum as it combined chapters from Natural Science courses including Biology, Physics and Chemistry. The activity is an innovation in education because through it students can use scientific data and elements to solve problems in their daily life, such as issues of ecological balance and environmental pollution (decision-making ability). The purpose of this activity is the cultivation of citizenship, where students, as tomorrow’s citizens and/or bioscientists, are called upon to make decisions about the environment, health, safety, and, in general, about any category of challenge that will arise from the applications of Biology/Ecology in our society. Open schooling might be both useful and challenging for teachers because it promotes students’ active participation by creating learning environments that will be governed by the principles of modern teaching methodology, such as inquiry learning and experiential and communicative approaches, encouraging critical thinking and creativity.

 

Change/innovation supported by: [X] schoolhead  [X] school association/network    [X] local government

[ ] Other:   

 

Students’ Outcomes: The students initially showed a great interest in getting to know the natural and artificial environment of their island. In the Informatics laboratory, they watched a video showing the natural environment of Lefkada such as habitats, lagoons, and mountains combined with the human-made environment i.e. houses and tourist accommodations. The online Webex communication with the scinetist Dr.Vasilios Drosos, professor of the Department of Forestry and Environmental and Natural Resources Management of the Democritus University of Thrace, excited the students because they were given the opportunity to answer their key questions about pollution and the environment and to participate in a discussion as responsible and active members of an action. Students, as the most dynamic part of society, were receptive to learning during the seminar. This created a climate of mutual trust and interaction between the scientist and students. Furthermore, the students were excited about the use of google map, iNaturalist database and Filotis database for mapping and locating cities of Lefkada with a greater percentage of pollution with the use of software even though they were initially cautious. Some of the students mentioned “Is it possible that the software we find very easily on the internet can provide us with such a large amount of information?”, “Can we also map the other islands in the Ionian Sea?”.

 

This practice contributed to increasing:

[X] families’ engagement in science   [X] girls’ participation in science.  [X] students’ science careers awareness

 

Please justify: The contribution of the students’ families was decisive in the success of the activity. This is because they helped the students search and record reports on the phenomenon of pollution twenty years ago on the island and compare them with today’s data. The participation rate of female students in the total number of students who participated in the activity was expected to be 52.4% (11/21). A large percentage of students expressed an interest in the following professions related to the Schools of Health Sciences (Medicine, Biosciences, Nursing) and Positive Sciences (Physics, Chemistry).

The central idea of the activity was to spark students’ curiosity by using news stories to connect science content to everyday life. The goal was for students to understand the relationship between the nervous system and the impact of psychoactive substances on the body, promoting greater interaction with their families and extending reflection beyond the classroom. Additionally, students were encouraged to engage with scientists to foster interest in pursuing STEM or science-related careers.

As part of the activities, teachers were given suggestions aligned with the National Common Curricular Base (BNCC), specifically for the 6th grade, within the thematic unit “Life and Evolution.” Among the suggested skills, students worked on explaining the functioning of the nervous system and how it can be affected by psychoactive substances (EF06CI10), as well as justifying the role of the nervous system in coordinating motor and sensory actions based on its structures (EF06CI07).

Throughout the project, teachers had the freedom to apply Augmented Reality (AR) cards as they saw fit, promoting a dynamic and tailored exploration of the content for the students.

The students participated in a series of activities in three distinct phases, aiming to explore the functioning of the nervous system and the impact of psychoactive substances on the body using AR technologies and interactions with scientists.
– CARE: Students were encouraged to care about everyday issues raised by a news story related to the use of psychoactive substances. They explored how the nervous system can be affected by these substances using AR cards to visualize neurons, axons, and dendrites. This phase piqued students’ curiosity and motivated a deeper exploration of the content.
– KNOW: Students discussed the role of the nervous system in coordinating motor and sensory actions of the body. They also addressed how science can clarify the damage caused to the body by psychoactive substances and discussed the social impacts of substance consumption. The class listed the main problems related to the topic, broadening their understanding of the associated risks.
– DO: Students were encouraged to take the knowledge they acquired to their families. They were tasked with discussing the subject at home and bringing questions and curiosities to the scientists. Families also proposed actions to combat the problems identified in the previous phase, and students brought these ideas back to the classroom in the following session.

In the **Closing** phase, students watched a video with a guest scientist who answered their questions and explained how knowledge of the nervous system is related to their field of expertise. This brought students closer to scientific practice and stimulated their interest in scientific careers. After the video, students completed a questionnaire about the activities and the knowledge they had gained.

**Teaching Results**
The results showed varying levels of teacher confidence regarding the activities:
1. **Small Group Discussions (A08)**: 83% of teachers felt confident.
2. **Use of Questions for Divergent Thinking (A07)**: 76% of teachers felt confident.
3. **Interaction with Researchers and Scientists (A05)**: 71% of teachers felt confident.
4. **Encouraging Participation in Science Activities Outside School (A04)**: 71% of teachers felt confident.
5. **Promoting Discussions on Science and Society (A02) & Helping Generate Evidence-Based Questions (A03)**: Over 70% of teachers felt confident.
6. **Teaching Scientific Inquiry with Real-World Problems (A01)**: 65% of teachers felt confident.
7. **Encouraging Discussion of Scientific Topics with Family (A06)**: 66% of teachers felt confident, with 24% feeling less confident.

In all activities, only a small percentage (less than 5%) felt very unsure.

**Learning Outcomes**
Students generally demonstrate a positive attitude toward science and its importance. The vast majority (82%) agree or strongly agree that learning science will be useful in their daily lives. Even more (86%) recognize the importance of science, technology, and mathematics for problem-solving.

There is a strong belief (87%) among students that science helps people worldwide lead pleasant and healthy lives, indicating an understanding of science’s global impact.

However, when it comes to personal confidence in science, the results are more mixed. Only about a third of students (31%) feel confident in their science knowledge, with a similar proportion (31%) feeling confident using mathematics to solve scientific problems. Slightly more students (42%) feel confident using science to generate questions and ideas.

Students show more confidence in their ability to justify views using arguments and evidence, with 43% feeling confident in this area. This suggests that while they may not feel as confident in their scientific knowledge, they have developed some critical thinking skills.

Regarding practical application, nearly half of the students (48%) feel confident in doing science projects with colleagues, family, and scientists. A similar proportion (49%) feel confident talking about science, indicating a willingness to engage with scientific topics.

Encouragingly, the vast majority (80%) of students express interest in doing projects with others using science, suggesting a desire for collaborative, hands-on learning experiences in science.

When it comes to enjoyment and future aspirations, 57% of students find learning science fun. However, opinions are more divided on career prospects, with 42% interested in a job that uses science, and 37% aspiring to be seen as experts in science.

Overall, while students generally recognize the importance and value of science, there is room for improvement in building their confidence and skills in scientific practices. The data suggests that hands-on, collaborative approaches to science education might be particularly well-received by students.

Links:

https://veja.abril.com.br/saude/estudo-mostra-que-31-de-internados-por-trauma-consumiram-alcool-ou-drogas/

https://gauchazh.clicrbs.com.br/cultura-e-lazer/cinema/noticia/2022/08/anne-heche-estaria-dirigindo-sob-efeito-de-drogas-e-acidente-passa-a-ser-investigado-como-crime-cl6plfv7o007x017pmubjxgim.html

https://www.gov.br/prf/pt-br/noticias/estaduais/piaui/2022/setembro/em-piracuruca-prf-prende-homem-por-conduzir-veiculo-sob-efeito-de-drogas

https://www.sbtnews.com.br/noticia/sbt-brasil/213366-caminhoneiro-sob-efeito-de-drogas-atinge-carros-e-casas-em-belo-horizonte

Results
[00:12, 04/10/2024]   Students

https://openeducation.eu.qualtrics.com/reports/public/b3BlbmVkdWNhdGlvbi02NDRiYWUxNjY0NmMyOTAwMDhlYjhhNWYtVVJfYnlMM3lKSFY0YlBxUkhE

[01:16, 04/10/2024]  Teachers https://openeducation.eu.qualtrics.com/reports/public/b3BlbmVkdWNhdGlvbi02NDc3ZTY1M2IyYTU4MjAwMDhlYjZhODMtVVJfYnlMM3lKSFY0YlBxUkhE

Care: Students were involved in  designing and developing a video game that promoted the importance of digital skills  for a real-life problem. The creators of the game aimed to raise children’s awareness about the usefulness of solar energy and solar panels.  Students who participated in the activities were from all grades 9,10,11 and 12. The creators of the game were Hanc Ionuț Cristian – class 12 A and Bunea Nicolae – class 12 A. 

Know: Students used knowledge about using green energy in planet exploration.  The competences that the students practiced were: reasoned decision-making, teamwork on multidisciplinary topics, programming and implementation of software applications.  

Do: At the end, the students prepared the video HERE, which they presented in school. They carried out the activities in teams and their families were involved in purchasing the necessary equipment for building the game and with technical consultancy for using free software for creating games.

Findings related to the Open Schooling approach: The activity can be included in the curriculum in science, geography, physics, chemistry, biology classes and less in computer science classes, because the computer science curriculum does not address the topic of creating video games.  But it was very attractive to students who were curious about the secret of building a video game. Open schooling could be the future of education for other teachers because it would empathize with students, motivating them in creating and using video games as a method of creative and digital development.

The results obtained by the students: The student Hanc Ionuț Cristian, managed to get the first place, at the regional phase Made for Europe and to present the game in the UK and Greece within the project Eramsus+ – Games Jam, which had as theme the creation of video games. And because within the college we set up an excellent robotics group,  which includes the creators of the game, following the visit of European Commissioner Ferreira, we were invited to the World Bank headquarters and the Ministry of Digitalization to present our projects. There I was able to talk to Ion, Mr. President’s AI assistant. We presented the project online at GUESS Indonesia and physically at the Science on Stage Festival!

Care: Students were worried about how to take care of their mental health.  In total, 108 students who were 16-17 years old and were studying 1st year of Baccalaureate participated.

Know:  The students learned about using the scientific method to solve real-life problems, biology concepts on mental health, and participation and communication skills. Other skills that the students put into practice were debating, asking questions, voting and consensus, co-creating recommendations and presenting results.

Do: In the end, the students participated in the Final Congress of Sentinel Schools presenting the recommendations for improvement agreed by the educational community. They completed the activities in groups and with the support of families, although not in full.

Findings related to Open Schooling approach:  The activity includes aspects from the curriculum, but it is necessary to consider the time to spend on the activities to match them in the schedule.  It was challenging to implement it because it was new to teachers, but very relevant and innovative.  Open Schooling can be useful for other teachers because it allows them to work on any topic of interest with a very interesting collaborative approach

Change/innovation supported by:

[ ] schoolhead  [  ] school association/network    [  ] local government [X] Other:  Living Lab for Health

Students’ Outcomes: The students fulfilled the task, but without too much motivation since it was not a topic that they had chosen. However, in the end they ended up happy with the results obtained.

This practice contributed to increasing: 

[  x ] families’ engagement in science   [X]  girls’ participation in science.  [   ] students’ science careers awareness

Care: Students were interested in how they could improve their mental health by doing activities at their high school.  In total, 78 students from the first year of Baccalaureate (16-17 years old) participated.

Know:  The students improved their knowledge about mental health and explored the problems and opportunities that exist in their promotion. They put into practice skills such as debate, collaborative work, argumentation, voting and consensus and co-creation of recommendations for improvement.

Do: In the end, the students participated in the Final Congress of Sentinel Schools presenting the recommendations for improvement agreed by the educational community and the mental health promotion interventions that they had planned for that academic year. They completed the activities in groups and with the support of families, although not in full.

Findings related to Open Schooling approach:  the activity includes concepts and competences included in the curriculum. Although it was a challenging proposal for teachers and students, it has been a very good experience that we recommend to other teachers to work innovatively in solving problems contextualized in their subjects.

Change/innovation supported by:

[x] schoolhead  [   ] school association/network    [  ] local government [X] Other:  Living Lab for Health

Students’ Outcomes: The results were good, the students did a search for information about mental health and from there they detected the problems and opportunities for improvement in each category. In general, knowledge and skills increased.

Care: Students were interested and concerned around mental health, which is a real-life problem. The question we asked to attract the interest of students was: What is Mental Health for you? Do you think it can be cured?  Students who participated in the activities were 52 students of 4th of primary, of 9 and 10 years.

Know:  Students used knowledge about values and ethics, of the environment, of the senses and application of part of the scientific method.  The skills that students practiced were to ask questions, analyze data, discuss claims and evidence, take and write conclusions.

Do: At the end, students prepared a mural with all the questions and answers of the research on mental health, with proposals for improvement and finally elaborated a presentation in digital format to prepare the participation in the sentinel congress held in the auditorium of the Cosmocaixa in Barcelona. They completed the activities in groups and supported by community members.

Findings related to Open Schooling approach:  The activity did not fit in the curriculum. It was challenging and innovative. Open schooling might be useful for other teachers because it can change the vision of students in relation to mental health problems and how to help people who suffer from it.

Change/innovation supported by:

[X] schoolhead  [   ] school association/network    [  ] local government [X] Other:  Living Lab for Health

Students’ Outcomes: Students learned about mental health concepts and that related diseases can be suffered by anyone and at any age. As an example, a student mentioned “When I talk to my psychiatrist, I feel much better”. With these words he shared and normalized going to the psychiatrist and the work that these specialists do.