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![Figure 2. Concept map: a creature walking on galaxies universe [22].](publication/368369925/figure/fig2/AS:11431281118993075@1675947657144/Concept-map-a-creature-walking-on-galaxies-universe-22_Q320.jpg)
![Planetary fact sheet: metric [25].](publication/368369925/figure/tbl1/AS:11431281118950401@1675947657392/Planetary-fact-sheet-metric-25_Q320.jpg)
Contexts in source publication
Context 1
... that telescopes are used to observe the visible universe while microscopes are used to observe the invisible universe. There is a great distance between microscopic bodies (subatomic particles) and macroscopic bodies (such as moons, planets, stars, the solar system, galaxies, clusters, super clusters, and so on) (Figure 1). ...
Context 2
... positive, negative, and neutral subatomic particles will be produced in greater numbers, which will be responsible for stronger gravitational forces and higher gravity. The gravity of the moon, for example, is smaller than the grav-Journal of Applied Mathematics and Physics ity of the Earth, which is smaller than the gravity of the Sun, which is smaller than the gravity of the solar system, which is smaller than the gravity of galaxies, which is lower than the gravity of clusters and black holes, and so on ( Figure 10). The Gravity of Moon < The Gravity of Earth < The Gravity of Sun < The Gravity of Solar System < The Gravity of Galaxies < The Gravity of Clusters < The Gravity of Black Holes Figure 8. Concept map of interconversion of energy and matter. ...
Context 3
... example, if two rubout-controlled bombs of the same strength blast at two points A and B with one click, which produces sound waves of exactly the same intensity and same wave length, then the observer C will observe only one sound while observer D will observe two sounds. So, two observers will have two different observations depending upon their distances from the points of events, although both events will happen at the same moment ( Figure 13). Journal of Applied Mathematics and Physics Figure 13. ...
Context 4
... two observers will have two different observations depending upon their distances from the points of events, although both events will happen at the same moment ( Figure 13). Journal of Applied Mathematics and Physics Figure 13. Concept map of relationship between distance and time of events. ...
Context 5
... is why gravitational force between Sun and Pluto is strongest while Gravitational force between Sun and Mercury is weakest because the coincided centers almost overlapped with the centre of mass and centre of gravity of mercury. Same is the case with Sun and Earth and to some extend with Sun and Venus (Figure 14). For our solar system, a macro gravitational constant (C G ) is obtained when we multiply the gravitational force acting on coincided centres with a value, which is obtained by dividing the sum of mass of the Sun and planet (M 1 + M 2 ) with the distance of separation D. ...
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Citations
... I hope that this paper will finally lead to extraordinary proof for extraordinary claims. This may lead to new insights into the relationship between the macro and micro cosmos [26]. ...
This paper presents a short exploration of the phenomena of mass and heat increase, shedding light on the remarkable notion of an expanding universe. Aimed at physicists and mathematicians, this investigation draws on an innovative collaboration with ChatGPT, an AI language model trained using scientific knowledge, to enrich our understanding of these fundamental concepts. By delving into the Gravitational Constant, we unveil compelling evidence for an increase in mass and heat for all celestial objects within an isotropic and homogenous universe as a result of the Lorentz Transformation of mass energy (LTME). Traditionally, LTME has been considered relevant primarily for subatomic particles at high velocities. However, this study posits that LTME is equally applicable to celestial bodies, even at relatively low velocities.
The journey commences with an examination of the Gamma Factor in the LTME, illumi-nating its significance in comprehending the expansion of the cosmos. Ultimately, this pa-per offers a comprehensive validation of "Expanding Matter" with responses from ChatGPT, illuminating the ever-growing nature of our universe. As physicists, embarking on this journey will lead to new perspectives on the profound mysteries that shape cosmic re-ality. This pursuit contemplates the possibility of an infinitely energetic universe, where en-ergy metamorphoses into mass through M = E / c². This interpretation proposes the exist-ence of a Process of Continuously Created Matter, manifesting as an ongoing accretion, augmentation, and expansion, harmonizing with the universe's ever-expansive nature. The study further incorporates state-of-the-art observational technologies to substantiate its claims, thereby opening new avenues for future research in both theoretical physics and cosmology.
