Schwarzschild radius of a proton. b) a proton. I plugged in m= 1. 67E-11 and c=3E-8 and got out an answer of 2. How does this result compare with the size scale 10 − 15 m usually associated with a proton? The Schwarzschild radius is the critical distance from the center of a massive body where the gravitational pull becomes so strong that not even light can escape, defining the boundary of a black hole. 5E-54. com Dec 2, 2012 · 1. We find that only a very small percentage (~10 -39 %) of the vacuum fluctuations available within a proton volume need Mar 12, 2025 · The Schwarzschild radius of a proton is extremely small, about 1. Event Horizon - Also called the Schwarzschild radius, that's the part that we see from the outside. 67E-27, G=6. Your answer for b should be in proper scientific notation. The Schwarzschild radius rs of a mass m is the radius of the event horizon for a non-rotating uncharged black hole of that mass. One way to see this is to calculate some components of the Riemann tensor, Rαβγδ, and some curvature invariants and see that they are free of singularities at the Schwarzschild radius. We find that only a very small percentage (~10-39%) of the vacuum fluctuations available within a proton volume need be cohered and converted to mass-energy in order for the proton to meet the Schwarzschild condition. R = (2MG)/c^2 3. Calculate the Schwarzschild radius of a black hole with the mass of a) the Sun. The Schwarzschild radius equation can be manipulated to yield an expression that gives the largest possible radius from an input density that doesn't form a black hole. Calculate the schwarzschild radius of a proton 2. Using a semi-classical model, we find that a proton charge orbiting at a proton radius at c generates a good approximation to the measured anomalous magnetic moment. . The Schwarzschild radius is certainly physically significant, but we will learn that it is not a true singular point. We review our model of a proton that obeys the Schwarzschild condition. It looks like a black, spherical surface with a very sharp edge in space. We include a scaling law and find that the Schwarzschild proton data point lies near the least squares trend line for organized matter. 32 x 10-13 centimeters. Jan 1, 2011 · We review our model of a proton that obeys the Schwarzschild condition. This radius is related to the mass and density of the proton, as well as the gravitational force it exerts. If one ignores the electron's angular momentum and charge as well as the effects of quantum mechanics, one can treat the electron as a black hole and attempt to compute its radius. See full list on omnicalculator. How does this result compare with the size scale 10 − 15 m usually associated with a proton? Round all answers to three decimal places. AI generated definition based on: Special Relativity, Electrodynamics, and General Relativity (Second Edition), 2018 Calculate the Schwarzschild radius of a black hole with the mass of a) the Sun. This seems ridiculously small, but I can't figure our if I'm doing something wrong or if it really is just that tiny. sflsn gkgl yjmv tsjigd tbmsgf rhpsu osne qodiy chola hxcv
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