I may have made a contradiction. Helium balloons aren’t actually lighter than air. The air inside them(helium) is light, creating a buoyant force on the balloon. This buoyant force (reactionary force to gravity) causes balloons to go up, but as the balloon ascends, the pressure of its environment decreases, and the balloon begins to expand. This expansion continues until the material of the balloon is stretched to its breaking point, causing the balloon to burst.
@jetpond7904
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1. Schrödinger's equation: This is perhaps the most famous and important equation in quantum mechanics. It describes how the wave function of a system evolves over time in response to the Hamiltonian operator, which represents the total energy of the system. The equation is written as: iℏ∂/∂t |ψ⟩ = H |ψ⟩ where ℏ is the reduced Planck constant, t is time, |ψ⟩ is the wave function of the system, and H is the Hamiltonian operator. Solving this equation allows us to predict the behavior of quantum systems, such as the probability of finding a particle in a certain location. 2. Dirac equation: This equation describes the behavior of particles with spin, such as electrons. It was developed by Paul Dirac in 1928 and is written as: (iγ^μ∂_μ - m)ψ = 0 where ψ is the wave function of the particle, γ^μ are the Dirac matrices, m is the mass of the particle, and ∂_μ is the partial derivative with respect to space-time. The Dirac equation is important because it predicts the existence of antimatter, which was experimentally confirmed in the 1930s. 3. Heisenberg uncertainty principle: This principle states that there is a fundamental limit to the precision with which we can simultaneously measure certain physical quantities, such as the position and momentum of a particle. The uncertainty principle is expressed mathematically as: ΔxΔp ≥ ℏ/2 where Δx is the uncertainty in position, Δp is the uncertainty in momentum, and ℏ is the reduced Planck constant. This equation has important implications for quantum mechanics, as it means that there is a fundamental limit to our ability to know certain properties of a system. 4. Pauli exclusion principle: This principle states that no two fermions (particles with half-integer spin) can occupy the same quantum state simultaneously. The principle is expressed mathematically as: Pψ = -ψ where P is the Pauli spin matrix and ψ is the wave function of the fermion. This equation is important because it explains why atoms and molecules have the electronic structure that they do, and it plays a crucial role in understanding the properties of matter. I am sitting here trying to wrap my head around quantum mechanics, I can't believe this nonsense. The equations that govern the behavior of particles at the smallest scales are so mindlinguling complex that it's hard to imagine how anyone could ever understand them so therefore it’s fake. And yet, scientists have been studying quantum mechanics for over a century, making some of the most groundbreaking discoveries in the history of physics. Rubbish. One of the most important equations in quantum mechanics is Schrödinger's equation. This equation describes how the wave function of a system evolves over time in response to the Hamiltonian operator. It's impossible to think that something as seemingly abstract as a wave function can actually describe the behavior of particles in the real world. It’s pseudoscience !!! Conspiracy! But the equations work, and scientists have used them to make predictions about everything from the behavior of electrons in an atom to the properties of superconducting materials. So maybe it’s not a conspiracy. Another impossibly complex equation in quantum mechanics is the Dirac equation. This describes the behavior of particles with spin, like electrons. What's really nonsensical about the Dirac equation is that it predicts the existence of antimatter, something that was experimentally confirmed decades after the equation was first proposed. BS. It's almost like the equation was describing something that didn't even exist yet, which is just mind blowing to think about and helps you realize it’s not a good equation. But for all the bending equations and exploding discoveries in quantum mechanics, there's still so much we don't understand so therefore I think quantum mechanics is fake. The Heisenberg uncertainty principle, for example, states that there is a fundamental limit to the precision with which we can simultaneously measure certain physical quantities. Never mind, quantum mechanics is real. It’s the universe is playing a game of quantum weirdness with us, making it impossible to know everything about a system at once. It's frustrating, but also dumb to think about. Never mind it’s smart. And then there's the Pauli exclusion principle which wants that no two fermions can occupy the same quantum state simultaneously. That’s rubbish! This principle is why we have the electronic structure we do in atoms and molecules, and it's also what gives rise to many of the properties of matter. So it’s correct actually. I’m still sitting here trying to make sense of it all, I can't believe this nonsense. It’s a conspiracy! But It's a reminder of just how small we are in the grand scheme of things, and how much there still is to discover. So it’s not a sonaporady it’s actually all real.
@FlatEarthKiller
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@@jetpond7904 Yes. And Miles Mathis *loves* misrepresenting and hating physics, and hes just a cranky crackpot idiot.
@jetpond7904
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How to destroy flat earth relative density: Why down?
@CNCmachiningisfun
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Eric Dumbay's massive density should cause him to sink into the ground!
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