AbstractTraditional systems of architecture frequently employ conductive metallic geometries and structured acoustic practices as components of environmental harmonization. Within Applied Vastu Science, engraved copper yantras are traditionally installed at selected architectural locations, often accompanied by the recitation of Sanskrit verses from the Srimad Bhagavatam and Sankirtan. Although these practices have been transmitted for centuries, they have received limited investigation using contemporary scientific methodology. This paper proposes a conceptual biophysical framework that integrates principles from classical electromagnetics, materials science, acoustics, wave mechanics, solid-state physics, and architectural physics to formulate experimentally testable hypotheses concerning these traditional practices. Rather than asserting established physical mechanisms, the proposed framework identifies measurable environmental variables that may be objectively evaluated under controlled laboratory conditions. A standardized experimental methodology is proposed, including randomized control groups, conductive copper substrates with engraved geometries, structured Sanskrit acoustic excitation, electromagnetic field measurements, vibration analysis, environmental monitoring, and statistical evaluation. The framework emphasizes reproducibility, objective instrumentation, independent validation, and hypothesis testing in accordance with accepted scientific research methodology. The principal contribution of this work is the development of an interdisciplinary research model intended to facilitate future empirical investigations of Applied Vastu Science. The paper neither claims therapeutic efficacy nor asserts verified physical effects. Instead, it establishes a transparent scientific framework through which traditional architectural practices may be examined using quantitative experimental methods. Future experimental studies may determine whether measurable interactions exist between conductive geometries, acoustic excitation, and environmental physical parameters. Regardless of experimental outcome, the methodology presented here provides a structured foundation for constructive dialogue between traditional knowledge systems and contemporary physical science. --- KeywordsApplied Vastu Science, Copper Yantra, Architectural Physics, Electromagnetics, Acoustic Excitation, Sanskrit Recitation, Materials Science, Biophysical Framework, Experimental Methodology, Environmental Measurements --- Highlights• Presents the first experimentally testable framework for Applied Vastu Science.• Integrates electromagnetics, acoustics, materials science, and architectural physics.• Proposes objective laboratory methodology using measurable physical variables.• Encourages interdisciplinary scientific investigation of traditional architectural practices.• Provides a reproducible conceptual framework suitable for future empirical validation. --- Conflict of InterestThe author declares that there are no known financial, commercial, or personal relationships that could have influenced the work reported in this manuscript. FundingThis research received no external funding. Data Availability StatementNo original experimental datasets were generated or analyzed during the present conceptual study. The manuscript presents a theoretical framework intended to guide future experimental investigations. Any datasets generated in subsequent studies will be made available by the corresponding author upon reasonable request. Ethics StatementThis study does not involve human participants, animals, clinical investigations, or identifiable personal data. Accordingly, institutional ethical approval was not required. AI Usage DisclosureThe author used OpenAI's ChatGPT solely to assist with language editing, manuscript organization, grammatical refinement, and formatting. The scientific concepts, hypotheses, interpretations, methodology, and conclusions presented in this manuscript were developed and reviewed by the author, who accepts full responsibility for the content. Suggested DisclaimerThis manuscript presents a theoretical scientific framework and proposed experimental methodology. It does not claim that the proposed mechanisms have been experimentally verified. The hypotheses described herein require validation through controlled laboratory investigations and independent scientific replication.
Dr Vijay Kumar Dr Vijay Krishna Shastri (Tue,) studied this question.