Comments by "Brandon" (@gravoc857) on "The Speed of Light Reveals the Universe Must Be Stranger Than We Ever Imagined" video.

@Baerchenization You do gain mass when you gain acceleration. You gain energy, and energy has an infinitesimally small amount of mass to it. This incredibly small mass is virtually unnoticeable in objects until you’re talking about requiring INFINITE energy to accelerate a mass to the speed of light. An infinite amount of infinitesimally small mass still equals infinity. Therefore an object with mass will achieve infinite mass when it reaches the speed of light, because it contains infinite energy.
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@jansenart0 That’s a bad way to look at entanglement. Your example suggests that information is known beforehand, which allows inference on the shape of a shattered plate. Here’s a better example. You have two plates. Each plate is a super positioned particle & both plates are entangled. During this entanglement, let’s move the plates 10 light years apart from each other. We now have two entangled plates (particles) that are in a super position. During this super positioning, no information is known. The plates are both in a state of shattered and intact. Neither knows & no outside observer knows. All that is known is that the plates simultaneously exist as fixed and broken, and every possible shatter combination in between. Now let’s shatter one of the plates. In theory, it should take 10 light years for the other plate to know the outcome. Instead what happens is the plate that is 10 light years away will instantly receive information about the observed (shattered) state of the other plate. That plate had no inference on the state of the other plate, and yet it knew the outcome of the plate 10 light years before it was supposed to. That’s the spooky action at a distance. An instantaneous exchange of quantum information when no information previously existed.
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@petabyt What about them? Solar sails contain mass. Therefore they‘ll acquire infinite mass because infinite energy is required to accelerate them to the speed of light. Solar sails can go very fast. But they’ll never be able to go the speed of light.
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Sorry that your brain is too little to contemplate concepts beyond you.
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@jansenart0 … I study quantum computers. Entangled QuBit’s are quite literally two super-positioned particles physically separated by a tangible and measurable distance of spacetime. QuBit’s are Fermions, generally elections or photons held inside a circuit inside a quantum computer. QuBit A is both 0 & 1 when super positioned. QuBit B is both 0 & 1 when super positioned. QuBit’s A & B are any combination of 0000 1111 when entangled as a super positioned pair. So yes, you do have two plates… What did you think entangled pairs are? You can entangle more than two particles together. For example, IBM has been experimenting with quantum computing in which 50 qubits are available & up to 20 have been entangled together at the same time.
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@jansenart0 Oh buddy…. You do realize that quantum entanglement ONLY happens to two or more superimposed particles, right? You can’t have quantum entanglement when the eigenstate of the particles are known. Please stop talking. It’s getting embarrassing watching you flounder about.
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@jansenart0 What are you even talking about? Quantum entanglement is paramount to quantum computing. You don’t get to trillions of computational processes per second by super-positioned 1’s and 0’s alone. You need quantum entanglement to increase the list of bit pairs and bit groups. Otherwise you’re stuck with quantum annealing when what you really want is quantum universal.
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@jansenart0 That’s all you got left? You’ve already used that one. Lol. Bud, you’re wrong about entanglement and you’re wrong about quantum computers.
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@nazaxprime Entanglement breaks as soon as an outside force is applied to either particle of the entangled pair. Applying acceleration to one of the particles causes quantum decoherence, in which the superposition of the particle collapses, and the entanglement of the pair collapses.
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