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I am around ten and I'm a geek with quantum physics. As of right now, the key factors with quantum physics are the equations and it is not an opinion. The second most important factors is logic. We can't see subatomic particles, but we can see it through mathematics. Those are the key aspects of quantum physics.

Good Answer geek:

The key aspect of quantum physics is quaternions. Quantum physics is four dimensional physics. Prior physics involved two dimensions, mostly complex mathematics z=a + bi, this could be called parallel physics. Quantum physics involves quaternions a four dimensional physics q= a =bi +cj +dk, this is non parallel or non-commutative physics. For example Z1Z2 = Z2Z1 for two dimensional physics, but Q1Q2 does not equal Q2Q1 for quaternion Physics. This quaternion aspect of Quantum physics is THE key.

Another aspect of Quantum Physics that is overlooked is the free space impedance z= 375 Ohms. Not much attention is paid to z but it is a quantum constant, z= W/Q where W is the quantum magnetic charge in Webers and Q is the quantum electric charge in Coulombs. W and Q are make up Planck's Constant h=WQ. W= 500 atto Webers and Q=4/3 atto Coulombs. h=zQ^2.

z is the "Aether" Maxwell postulated as necessary to transport electromagnetic waves and M&M did not find. The Fine Structure Constant Alpha = 1/2 (e/Q)^2 = 7.2E-3 where 'e' is the electric charge and Q the quantum charge.

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Quantum mechanics and quantum physics are terms that are often used interchangeably to describe the same field of study. Both refer to the branch of physics that deals with the behavior of particles at the smallest scales. However, some may argue that quantum mechanics specifically refers to the mathematical framework and principles used to describe the behavior of particles, while quantum physics is a broader term that encompasses the experimental and theoretical aspects of the field. Ultimately, the key differences between the two terms are subtle and may vary depending on the context in which they are used.


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What are the key differences between quantum mechanics and physics?

Quantum mechanics is a branch of physics that deals with the behavior of particles at the smallest scales, while physics is a broader field that encompasses the study of matter, energy, and their interactions at all scales. Quantum mechanics introduces concepts such as superposition and entanglement that are not present in classical physics, and it has led to the development of technologies like quantum computing. Physics, on the other hand, includes classical mechanics, electromagnetism, thermodynamics, and other branches that do not rely on quantum principles.


What are the key principles of q physics and how do they differ from classical physics?

Quantum physics is a branch of physics that deals with the behavior of particles at the smallest scales. The key principles of quantum physics include wave-particle duality, superposition, and entanglement. These principles differ from classical physics in that they describe the behavior of particles as both waves and particles, the ability of particles to exist in multiple states simultaneously, and the interconnectedness of particles regardless of distance.


What is the importance of measurements in quantum physics?

Measurements in quantum physics are crucial as they allow us to observe and understand the behavior of quantum systems. They provide us with information about the state of a system, such as its position, momentum, or energy. Measurements also play a key role in determining the probabilities of different outcomes in quantum experiments, helping us make predictions and test the validity of quantum theory.

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What are the key differences between quantum mechanics and physics?

Quantum mechanics is a branch of physics that deals with the behavior of particles at the smallest scales, while physics is a broader field that encompasses the study of matter, energy, and their interactions at all scales. Quantum mechanics introduces concepts such as superposition and entanglement that are not present in classical physics, and it has led to the development of technologies like quantum computing. Physics, on the other hand, includes classical mechanics, electromagnetism, thermodynamics, and other branches that do not rely on quantum principles.


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