Capiert Posted January 17, 2023 Posted January 17, 2023 (edited) Perigee (e.g. perihelion, is the nearest distance to the sun, &) has the slowest orbit_speed, but fastest angle_speed (angular_velocity); & Apogee (e.g. Aphelion is the farthest distance (away) from the sun) has the fastest orbit_speed, & slowest angle_speed (angular_velocity). I distinguish between orbit_speed (vc=Cir/T=2*Pi*r/T); versus the angular_speed (theta/T); (Disclaimer: otherwise Kepler's 3rd law is NONSENSE (for me), who(m) I pity). Tycho (Brahe) (only) measured planets'(_position): angles & time (dates); so we can calculate the(ir orbits) angular_speeds, e.g. how fast arcs (=angles). are swept. To summarize (my interpretation): 1. Kepler found that (planets') obits were NOT perfect circles (& (he simply) approximated that (orbit) to an ellipse (math)). 2. Instead, an egg (shaped orbit) has only 1 focus (center), found near the smaller end. (The conic_section was done (algebraically) from a cone (with its circular base sitting on the ground (y=0), & its apex (x,y=0,H=0,1) up at the top) having the same radius R=H=1 equal to its height H (which seems to be the key to the results); & then normalizing by dividing by the egg's total (diagonal_)length L which starts at the cone's base_circumference (left_side, x,y=-1,0) going (diagonally up, to the right) thru the center axis (focus x,y=0,h) where the (partial) height (fraction) h is the eccentricity (Epsilon); (& continues till it pierces (out, thru) the cone's right side). Your mathematicians should be capable of similar results. If you DON'T believe me you can form bread dough & cut it, appropriately.) Equal arcs (=angles) are swept [out] in equal times. 3. A circular orbit uses (=has) the pendulum_period T=2*Pi*((r/g)^0.5), g=ac which is similar to Newton's centifugal_acceleration ac=vc2/r if ac=g. Why should an orbit_speed vc increase with smaller radius? E.g. For very small eccentricities? (It does NOT, because..) There is NO consistency, when extrapolating to large(r) eccentricities. Nature does NOT abruptly change her laws; (but) men do. Especially when they did NOT understand. Edited January 17, 2023 by Capiert A few details, update.
Genady Posted January 17, 2023 Posted January 17, 2023 3 hours ago, Capiert said: Perigee (e.g. perihelion, is the nearest distance to the sun, &) has the slowest orbit_speed, but fastest angle_speed (angular_velocity); & Apogee (e.g. Aphelion is the farthest distance (away) from the sun) Apo(gee] and perigee _refer_ (to an) orbit (=around) //Earth// (while?) aphelion (and__) perihelion ..&refer**.. (to_an!) orbit around ((Sun---)) 1
Sensei Posted January 17, 2023 Posted January 17, 2023 (edited) @Capiert https://www.google.com/search?q=earth+orbital+speed+at+perihelion https://www.google.com/search?q=earth+orbital+speed+at+aphelion Have you ever seen a pendulum ? Is its speed highest at the highest point (=far from the center of the Earth) ? 5 hours ago, Capiert said: Nature does NOT abruptly change her laws; (but) men do. Especially when they did NOT understand. Edited January 17, 2023 by Sensei
Capiert Posted January 20, 2023 Author Posted January 20, 2023 (edited) On 1/17/2023 at 1:06 PM, Sensei said: @Capiert https://www.google.com/search?q=earth+orbital+speed+at+perihelion https://www.google.com/search?q=earth+orbital+speed+at+aphelion Have you ever seen a pendulum ? Yes. On 1/17/2023 at 1:06 PM, Sensei said: Is its speed highest at the highest point (=far from the center of the Earth) ? No. Did I say it was? The (pendulum_)Period formula T does NOT mention height; & I am NOT discussing Pendulums (anyway); but instead Orbits which use the same (similar) formula. I just wanted to point out their math similarity so you can quickly understand. (Perhaps I said things wrong, in my haste?) On 1/17/2023 at 11:28 AM, Genady said: Apo(gee] and perigee _refer_ (to an) orbit (=around) //Earth// (while?) aphelion (and__) perihelion ..&refer**.. (to_an!) orbit around ((Sun---)) Thanks for the correction. I could NOT find the vocabulary quick enough, on the fly. I wanted to use something like Periside & Apside but forgot the (exact) spelling. (So (unsure) I backed down, & (I) had to rush for something else ((&) that did NOT work).) ERRATA: Typo. My angle_speed example was a ruff quick random (hash) mixture (example); NOT a (formal) formula. Just to give a (vague) ruff idea (comparison). I had originally intended something like ~theta/t, ~360°/T but I found a general formula getting too complicated, for the application I wanted. So I wrongly settled for a condensation theta[/t, ~360°]/T -> theta/T (when theta=360°), where that (particular) T was any kind of time NOT intended to be (just only) a period, but as a quick comparison to what a (real) Period should hint at. Sorry. (Trying to pack too much info, into too little space, to keep things short.) My angle_speed (formula, of choice) should be called "frequency" f=(theta/t)*(1 [cycle]/360°) =1/T for the angle theta in (units) [degree(s)]=[°]; t is an amount of time (duration, e.g. difference in time) in (units) [second(s)]; & period T is the (amount of) time (duration), per cycle. There are several ways to express angle & (thus, also) angle_speed. More info in that thread "Angle_speed f(?)" if you need it. Edited January 20, 2023 by Capiert
Capiert Posted January 20, 2023 Author Posted January 20, 2023 (edited) On 1/17/2023 at 1:06 PM, Sensei said: @Capiert https://www.google.com/search?q=earth+orbital+speed+at+perihelion https://www.google.com/search?q=earth+orbital+speed+at+aphelion Sensei Thanks for the links but (I suspect) you missed my point (=speculation). I'm saying Kepler's 3rd law is wrong for an Orbit_speed; & (=but instead) it should (=might) apply to an angular_speed. Btw. Is there any (Foto) evidence that orbits are (suppose to be) elliptical? I know he empirically determined T~Ra1.5. On 1/17/2023 at 1:06 PM, Sensei said: Have you ever seen a pendulum ? Yes. On 1/17/2023 at 1:06 PM, Sensei said: Is its speed highest at the highest point (=far from the center of the Earth) ? No. Did I say it was? (The pendulum(s) I saw was NOT orbiting around the Earth.) The (pendulum_)Period formula T does NOT mention height; & I am NOT discussing Pendulums (anyway); but instead Orbits which use the same (similar) formula. I just wanted to point out their math similarity so you can quickly understand. (Perhaps I said things wrong, in my haste?) On 1/17/2023 at 11:28 AM, Genady said: Apo(gee] and perigee _refer_ (to an) orbit (=around) //Earth// (while?) aphelion (and__) perihelion ..&refer**.. (to_an!) orbit around ((Sun---)) Thanks for the correction. I could NOT find the vocabulary quick enough, on the fly. I wanted to use something like Periside & Apside but forgot the (exact) spelling. (So (unsure) I backed down, & (I) had to rush for something else ((&) that did NOT work).) ERRATA: Typo. My angle_speed example was a ruff quick random (hash) mixture (example); NOT a (formal) formula. Just to give a (vague) ruff idea (comparison). I had originally intended something like ~theta/t, ~360°/T but I found a general formula getting too complicated, for the application I wanted. So I wrongly settled for a condensation theta[/t, ~360°]/T -> theta/T (when theta=360°), where that (particular) T was any kind of time NOT intended to be (just only) a period, but as a quick comparison to what a (real) Period should hint at. Sorry. (Trying to pack too much info, into too little space, to keep things short.) My angle_speed (formula, of choice) should be called "frequency" f=(theta/t)*(1 [cycle]/360°) =1/T for the angle theta in (units) [degree(s)]=[°]; t is an amount of time (duration, e.g. difference in time) in (units) [second(s)]; & period T is the (amount of) time (duration), per cycle. There are several ways to express angle & (thus, also) angle_speed. More info in that thread "Angle_speed f(?)" if you need it. Edited January 20, 2023 by Capiert
Sensei Posted January 20, 2023 Posted January 20, 2023 4 hours ago, Capiert said: Did I say it was? Don't you see your error? Did you see and read articles from my links? (below attached 2nd time) On 1/17/2023 at 1:06 PM, Sensei said: https://www.google.com/search?q=earth+orbital+speed+at+perihelion https://www.google.com/search?q=earth+orbital+speed+at+aphelion
swansont Posted January 20, 2023 Posted January 20, 2023 For a circle, v=wr (w is angular speed), and this will be a good approximation for a low-eccentricity ellipse. There is no way to have v be a minimum but w be a maximum for an orbit. If you think Kepler’s laws are wrong, you must provide the evidence. Nobody has to justify it. Quote Why should an orbit_speed vc increase with smaller radius? Conservation of energy tells you it must be so. As r decreases, the PE becomes more negative. KE must increase. The sum must remain constant, since no work is being done on the system.
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