Infrared Thermography of T-Consciousness Fields' Effects on Water

The concept of Consciousness and its role in the universe has long been one of the most challenging topics in science. Despite numerous theories proposed to explain this elusive phenomenon, there is no consensus among scientists. Mohammad Ali Taheri introduced the consciousness as a fundamental element of the universe, from which matter, information, and energy originate. To distinguish this novel approach from various existing theories, it has been termed T-Consciousness. According to this perspective, in addition to the constant consciousness, which forms the basic foundation of the physical world, there are various variable T-Consciousness Fields (TCFs) with different functions. It is important to note that T-Consciousness and TCFs are considered non-physical entities and thus cannot be measured with quantitative tools. However, TCFs can be applied to subjects under study, ranging from living organisms to inanimate materials. The aim of this study was to examine the possible effects of two types of TCFs, including TCF 1 and TCF3, on thermal property of water using Infrared Thermography technique. The data were obtained within 12 minutes and untreated samples served as controls. While there were no meaningful changes under the influence of TCF3 treatment, the application of TCF1 led to a significant increase in temperature (p-value < 0.0001), indicating a rise in the kinetic energy of the water, which necessarily requires energy. Considering that TCFs are neither matter nor energy, the energy provided by these fields has been termed Waveless Hidden Energy (WHE) by Taheri. We recommend conducting more experiments to elucidate how TCFs interact with water.