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All Journal World Psychology Journal of Tecnologia Quantica
Oo, Zaw Min
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Education Physics Social Sciences Other

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The Role of Emotional Intelligence in Improving Early Childhood Social and Academic Skills Arinda, Fita; Oo, Zaw Min; Myint, Aung; Anggreni, Made Ayu
World Psychology Vol. 4 No. 1 (2025)
Publisher : Sekolah Tinggi Agama Islam Al-Hikmah Pariangan Batusangkar, West Sumatra, Indonesia.

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.55849/wp.v4i1.804

Abstract

Emotional intelligence (EI) plays a critical role in early childhood development, influencing social and academic skills. As young children begin to navigate complex social interactions and engage in learning activities, the ability to recognize, understand, and regulate emotions becomes fundamental to their success in school and relationships. Despite its importance, the role of EI in shaping early childhood social and academic outcomes remains underexplored. This study aims to examine the impact of emotional intelligence on the development of social and academic skills in early childhood. A mixed-methods approach was employed, involving a sample of 150 preschool children and their teachers. The study utilized the Emotional Quotient Inventory (EQ-i) for children and teacher reports on social and academic skills. The results demonstrated that higher emotional intelligence scores were significantly associated with better social interactions, peer relationships, and academic performance, particularly in areas of problem-solving and self-regulation. The findings suggest that fostering emotional intelligence in early childhood education programs can enhance both social and academic competencies. The study concludes that EI is a key factor in supporting children’s overall development, providing a foundation for improved social interactions and academic achievement in later years.  
Quantum Computing to Design New More Effective Drugs Myint, Aung; Hlaing, Nandar; Oo, Zaw Min
Journal of Tecnologia Quantica Vol. 1 No. 5 (2024)
Publisher : Yayasan Adra Karima Hubbi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70177/quantica.v1i5.1698

Abstract

The development of quantum computing provides great opportunities in various fields, one of which is in drug design. This technology offers a way to model molecular interactions more accurately and efficiently compared to conventional methods. This research aims to explore the potential of quantum computing in designing new drugs that are more effective by accelerating and improving precision in molecular simulations. This study aims to identify and evaluate the ability of quantum computing to design more effective drug compounds, as well as to understand how quantum simulation can improve the efficiency of the drug development process. The research method used is quantum simulation to analyze the interaction between compounds and biological targets. The selected compounds were analyzed using quantum algorithms to calculate bond energy and molecular stability. The results of the simulation are then compared with conventional drug design methods. The results show that quantum computing can model molecular interactions with more precision and efficiency. Compounds selected using quantum methods showed higher effectiveness, with stronger binding energies and more stable biological interactions compared to drug designs using classical methods. Quantum computing shows great potential in the design of new, more effective drugs. Although technical challenges still exist, especially in terms of hardware and algorithms, this research shows that these technologies can speed up and improve the drug design process. Further research is needed to overcome these limitations and optimize the application of quantum computing in the pharmaceutical field.
Co-Authors Anggreni, Made Ayu Arinda, Fita Hlaing, Nandar Myint, Aung