Richard: From the photosphere out, what is the mass of the solar atmosphere in earth masses? OpenAI Chat GPT Plus 4.0: As of my knowledge cutoff in September 2021, I don’t have precise information on the total mass of the solar atmosphere (including the chromosphere, the transition region, and the corona) in Earth masses. The
Read More »
Physics @Berkekey: Oct 13 Colloquium: Konrad Lehnert at https://www.youtube.com/watch?v=qbqTWe1qBbY Konrad Lehnert, Three axis MEMs gravimeters can be made sensitive enough to measure precisely the vector tidal sun moon signal that is the main part (about 98.5%) of the signal at a superconducting gravimeters station. Using the JPL ephemeris this is just the sun’s acceleration at the
Read More »
Richard: I am reading Jackson’s “Classical Electrodynamics” again. Looking at the fundamental assumptions and limitations of his times. At the very beginning he is talking about electrostatic fields and he says Curl (E) = 0 and says “this is equivalent to saying that E is the gradient of a scalar electric potential” But soon he
Read More »
Richard: There is an Ampere’s law for the integral of H on a boundary. When you write equations in this conversation, ALWAYS use the explicit multiplication symbol so I can clearly see the breaks between symbols. “*” OpenAI ChatGpt PLus 4.0: Ampere’s Law is a fundamental principle of electromagnetism that relates the integral of the
Read More »
Engineering Funda: Ampere circuit law for magnetic field intensity, Ampere circuit Law at https://www.youtube.com/watch?v=oGjnGylALXw&list=PLgwJf8NK-2e7Mk6BS3ttmOh9tuu55NTHk&index=2 Please be sure you have captions on all your videos, even your older ones, and links in the descriptions for reference materials. Your diagrams and equations are clear enough to follow without sound or captions, but you sometimes change symbols and notation.
Read More »
For the Love of Physics: The Hidden Connection – How Magnetism Arise from Relativity: Explained at https://www.youtube.com/watch?v=WwzB1JvsyYc When calculating the vector tidal gravitational acceleration at a three axis gravimeter station on Earth, it is necessary to use “time of flight” methods. The sun and moon positions from JPL ephemeris for the time when the signal began
Read More »
Richard Collins: Isotopic Masses Fundamental Constant Groups World Education Gravitational Fuels at https://www.youtube.com/watch?v=WxiJ320pQJI&lc=UgyrEuQ2CGQvzPabwgB4AaABAg Ken, I cover a lot of ground in two years, so these older videos are good but not great. I chat with OpenAI GPT 4 every day for several hours on difficult problems that I am working on for the Internet Foundation. When
Read More »
Master Ivo: Field Propulsion, Explained with Working Proof at https://www.youtube.com/watch?v=lVjC47NBqfM You are wasting a lot of time inventing theories that are well known and trying to learn quantities that are relatively easy to measure and calculate. Start by thinking what you want to do. I suggest you use magnetic levitation first. Forces on wires and magnets
Read More »
Richard Behiel: The Beauty of Linear Regression (How to Fit a Line to your Data) at https://www.youtube.com/watch?v=my3lsV-VQjs Richard Behiel, The vector tidal gravity signal from the sun moon and earth at a superconducting gravimeter station is simple Newtonian GM/r^2. The suns vector acceleration on the station, minus the suns acceleration on the center of the earth.
Read More »
Richard Behiel: The Nature of Gravity, Part 1: Earth’s Potential and Acceleration Fields at https://www.youtube.com/watch?v=zjBo58RxYQ8 Richard Behiel, I like your animations, they are a help for visualizing. You might want to consider all the mass from the sun, cosmic rays, solar wind, meteorites, dust and things that collide and interact with the earth over billions of
Read More »