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音量 14, 問題 3 (2023)

研究論文

The Interpretation of Static Motion

Thembinkosi Mkhize

This study is conducted upon static mechanics. In physics, static mechanics is a field of statics. Through static mechanics, we investigate the mechanism of the universe via mathematical interpretations and axiomatic interpretations. We found that the universal mechanism is static; we mean: all motion of bodies’ celestial bodies, quantum bodies in the universe is still. The implication of this finding is that all motion in the universe is an illusion; there is no motion of bodies.

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Unlocking the Quantum World: Exploring the Mysteries and Applications of Quantum Mechanics

Rocha Gracia*

Quantum mechanics, also known as quantum physics, is a branch of physics that studies the behavior of particles at the atomic and subatomic level. It is a fundamental theory that has revolutionized our understanding of the universe and has led to the development of technologies that have transformed our daily lives. In this article, we will explore the fascinating world of quantum mechanics, its key concepts, and its profound implications for our understanding of reality.

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Unleashing the Unseen: Exploring the Frontiers of Experimental Physics

Chiara Ardito*

The field of experimental physics has always been at the forefront of scientific discovery, pushing the boundaries of our understanding of the natural world. Over the past few decades, remarkable advancements have been made, fuelling a new era of exploration and innovation. From unravelling the mysteries of the quantum realm to probing the vastness of the cosmos, experimental physicists have embarked on an extraordinary journey, transforming abstract theories into tangible realities. In this article, we will explore some of the ground breaking experiments that have shaped our understanding of the universe, highlighting the exciting developments that have taken place since the turn of the millennium.

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Field Theory: Unveiling the Fundamental Forces of Nature

Kay Martinovic*

Field theory stands as one of the most profound frameworks in modern physics, enabling us to understand the fundamental forces and particles that govern the universe. Developed over centuries of scientific inquiry, field theory encompasses a wide range of disciplines, including classical field theory, quantum field theory, and the more recent advances in string theory. In this comprehensive article, we will delve into the fascinating world of field theory, exploring its origins, key concepts, and its profound impact on our understanding of nature.

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The Iterative Solution of Taylor Formula for Partial Differential Equation

Yang Gao*

This paper discuss the relation between Taylor's formula and partial differential equation. Taylor formula iteration method can resolve partial differential equation u(x,t) be expanded at t=0 or t=1 by Taylor formula. Coefficient of Taylor formula ut(x,0), utt(x,0). . . can be expressed by partial differential equation. The method can solve nonlinear differential equation. Generalized Taylor's formula can solve fractional partial differential equation. The method is very important way that resolving partial differential equation. This article refers to the literature. Taylor formula iteration method belongs to logical thinking.

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