So would Br2 being exposed to light and forming radicals involve their bonded electrons moving up into the antibonding molecular orbital due to the increase in energy from the light?
So where exactly is the electron? (I mean, it's in the p subshell, alright. But when it transitions to give the two spectra lines, is it transitioning from the P1/2 and P3/2 states at the same time?)
There is something about the Coriolis Force that bothers me, and I can't quite put my finger on it. The Earth and its atmosphere tend to rotate together...the earth being a solid ball and the atmosphere being a thin, sticky Jello that clings to the solid ball due to gravity. The solid ball that is the earth, does NOT rotate within an atmosphere that is stationary relative to the fixed starfield which surrounds our planet. If this were the case, winds at the earth's surface would be way too strong to support life. However, in our current Coriolis model, when a convection current moves a small parcel of air within that Jello in a northerly or southerly direction, it appears that we detach that parcel from the rest of the atmosphere and trace out its path relative to the fixed star field around earth; but then wouldn't that mean that the people on the earth's surface who are standing at the parcel's "target" latitude feel a wind that has a magnitude equivalent to VTarget - VSource? It seems that a slightly more accurate model of the air parcel's motion would involve treating the air parcel like a gum drop stuck on a radial arm extending from the center of the earth to the earth's surface. This radial arm and the gum drop positioned at the tip of the radial arm at the earth's surface would (in static conditions) move with the rotation of the earth but then experience a torque if there was any change to the angular momentum of the gum drop brought about by north to south movement. Although there appear to be some correct ideas behind the current model of the Coriolis Force, I cannot help but feel that the current model was conceived in a time when many people were still fighting off the idea that the earth was flat and this has left the current model with some gaps that need to be addressed.
Thank you sir 😊😊 I am from non biology background and in btech biotechnology branch . Your concepts really helps me appreciate biology 🙂 😌 ☺️. Keep doing the good work 👏 🙌 👍
