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All Journal Jurnal Pijar MIPA
Alzeer, Jawad
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Biochemistry, Genetics & Molecular Biology Chemistry Mathematics Physics

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Potentiality to Actuality: Quantum Physics Inspires Creative Innovation Alzeer, Jawad; Benmerabet, Hamid
Jurnal Pijar Mipa Vol. 20 No. 1 (2025)
Publisher : Department of Mathematics and Science Education, Faculty of Teacher Training and Education, University of Mataram. Jurnal Pijar MIPA colaborates with Perkumpulan Pendidik IPA Indonesia Wilayah Nusa Tenggara Barat

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29303/jpm.v20i1.8176

Abstract

Throughout history, humans have demonstrated an extraordinary capacity for creativity and innovation, driving progress and shaping our world. This innate ability to imagine, experiment, and push the boundaries of the possible is central to our identity as free-thinking individuals. To explore the cognitive, psychological, and ethical dimensions that influence the transformative process of translating creative ideas into practical realities, understanding this process as a defining characteristic of human innovation and a reflection of our unique capacity for independent thought. This research utilizes a framework that integrates cognitive psychology, neuroscience, and the principles of quantum physics to analyze the multifaceted dimensions influencing the transformation of creative ideas into reality. This framework will examine cognitive processes, psychological balance, and the alignment of material and non-material values. This research demonstrates that a holistic approach to innovation encompassing material and non-material values is crucial for realising creative potential. This aligns with the principles of quantum physics, where reality emerges from a state of potentiality through conscious observation and interaction. Cultivating free will, critical thinking, and a balanced mentality empowers individuals to harness their creative potential and contribute meaningfully to society. We can unlock human ingenuity and create a brighter future by fostering an environment that encourages independent thought and ethical decision-making.
Personality in Motion: How Values, Energy, and Conscious Choice Shape Identity Alzeer, Jawad
Jurnal Pijar Mipa Vol. 20 No. 2 (2025)
Publisher : Department of Mathematics and Science Education, Faculty of Teacher Training and Education, University of Mataram. Jurnal Pijar MIPA colaborates with Perkumpulan Pendidik IPA Indonesia Wilayah Nusa Tenggara Barat

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29303/jpm.v20i2.8533

Abstract

Human behavior and personality are shaped by a mix of biology, psychology, and social influences. Emotions like love and hate stem from brain chemicals like oxytocin, linking biology to emotional well-being. This study explores emotions through instincts, entropy, and quantum mechanics, combining insights from biology, psychology, and physics to understand emotional stability. The findings show that emotions are deeply personal, influenced by body chemistry, life experiences, and environment. To maintain emotional balance and personal growth, it’s important to align values, beliefs, and actions. Achieving emotional well-being requires effort, through healthy habits like good nutrition, exercise, mindfulness, and value alignment. Concepts from quantum mechanics and thermodynamics help explain the complexity of emotions, highlighting the need to nurture positivity and reduce emotional chaos.
Rethinking Reactivity: How Structure, Energy, and Entropy Drive Chemical Transformations Alzeer, Jawad
Jurnal Pijar Mipa Vol. 20 No. 4 (2025): Special Issue
Publisher : Department of Mathematics and Science Education, Faculty of Teacher Training and Education, University of Mataram. Jurnal Pijar MIPA colaborates with Perkumpulan Pendidik IPA Indonesia Wilayah Nusa Tenggara Barat

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29303/jpm.v20i4.8795

Abstract

This work introduces a new way to understand chemical and biological reactivity by connecting molecular structure directly to potential energy and entropy. Moving beyond traditional views, where potential energy is merely “stored energy” and entropy a measure of “disorder”, this structural-thermodynamic framework defines both properties through the lens of constitution, configuration, and conformation. By analyzing diverse mechanisms, including nucleophilic substitutions, eliminations, and cycloadditions, the study shows how structure drives energy storage and release, as well as entropic expansion. The framework highlights how organization increases potential energy while dissociation and flexibility enhance entropy. This structural view not only clarifies the thermodynamic basis of reaction pathways but also offers a predictive model for molecular design in drug development, catalysis, and computational chemistry. By linking structure to thermodynamic behavior, the approach helps students and researchers move from memorization to mechanistic reasoning, providing a unified tool to interpret and anticipate chemical transformations.
Co-Authors Benmerabet, Hamid