Electricity, Magnetism and Special Relativity (corrected)

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  • Опубліковано 16 лис 2024

КОМЕНТАРІ • 88

  • @samriddhisinghsingh3847
    @samriddhisinghsingh3847 10 місяців тому +9

    Really a great explanation professor my views releted with this electrodynamic just changed im very lucky to find this video out our explanation was fundamental and so easy for people like me with beginning know thanks a lot sir. To share the concept in such a easy way

  • @laurenssailer6921
    @laurenssailer6921 7 місяців тому +3

    Honestly a great video. Good and easy explanation and visualisation of the subject. Thanks a lot.

  • @王王玮-b7z
    @王王玮-b7z Місяць тому +1

    The hole theory takes me a few time to totally understand why the hole is moving, it is not continually moving forward, but suddenly appear in the next hole, the faster the electron moves, the less time the hole need to appear in the next hole, this is a model this video ignores but absolutely needs to be presented, it exactly explains why we actually can consider the hole is moving

  • @carboncontain
    @carboncontain 2 місяці тому

    The best explanation i have come across so far a lot of my confusing get cleared

  • @randomvide1
    @randomvide1 22 дні тому

    Best explanation in layman's terms. Thanks

  • @thunderbirdizations
    @thunderbirdizations Рік тому +7

    How does this only have 578 views??

    • @plranisch9509
      @plranisch9509 2 місяці тому

      Not just anyone, Christopher Columbus! We are the lucky ones to have found this🎉

  • @Natgrid02
    @Natgrid02 26 днів тому

    Honestly this one video solves all my questions...thank you Prof ❤❤❤❤❤❤ keep doing it 🎉🎉🎉

  • @bacasholimited2617
    @bacasholimited2617 5 місяців тому

    The best explanation ever. thank you very much

  • @peterhemmings2929
    @peterhemmings2929 Місяць тому

    Regarding that tiny Lorentz contraction effect at low speeds that you mentioned. You suggest that it's the large number of electrons per cm^3 that offsets that, but I feel it's more about the enormous strength of electric forces. E.g. the electrical repulsion forces between the soles of our feet and the ground are enough to counteract the gravitational attraction of the entire planet! I think the strength ratio of the forces is something like 10^40 for a couple of electrons!

  • @philoso377
    @philoso377 8 місяців тому +1

    Nice video and presentation.
    Let see if we understand each other.
    1. Electrons and ions moves through electrolytes and vacuum but metal.
    2. Electric charge moves on the boundary of metal that electrons and ions cannot.
    3. Charged electrons and ions moves through vacuum enables charges to migrate through vacuum, and hence electric current. The current in a cathode ray tube.

  • @markn7419
    @markn7419 7 місяців тому +1

    no discussion about that every electron is a tiny magnet due to its orbit, spin & direction. That only unpaired electrons (think valence) can create magnetic fields. The paired electrons cancel each other out because the spins are in opposite directions.

  • @activitychannels3167
    @activitychannels3167 Рік тому +2

    Very well explained

  • @DrMuse-on2dx
    @DrMuse-on2dx 6 місяців тому

    Thanks, this is the way I was taught and until we invent a monitoring device to actually see atomic structure (protons, neutrons and electrons) and subatomic particles. We will only see the effects of this phenomenon. Like the white light we see with our eyes. We know its there but we still can't see the photons or packets of electromagnetic energy.

  • @elkonstanc
    @elkonstanc 7 місяців тому

    Great explanation. Thank you!
    But how does this model explain energy losses when emitting EM radiation? Why one have to make work when feeding an antenna? Why accelerated charge loses its energy in this model?

  • @kimsahl8555
    @kimsahl8555 2 місяці тому +2

    Special relativity: c is constant to the "stationary" observer.
    - But what is the "stationary" observer stationary to?

    • @nikitanoby
      @nikitanoby 2 місяці тому

      stationary relative to something that's moving

    • @kimsahl8555
      @kimsahl8555 2 місяці тому

      @@nikitanobySeen from Earth: 1) we are at rest/moon is moving 2) we are moving/moon is at rest. 1) and 2) are equally, but 1) is correct 2) is incorrect.

    • @meslud
      @meslud Місяць тому +1

      it's stationary with respect to itself (therefore c is constant no matter what)

    • @kimsahl8555
      @kimsahl8555 Місяць тому

      @@meslud Self-reference is not accept.
      Only self-identical is to be accept.

  • @diegoavalis3886
    @diegoavalis3886 3 дні тому

    John Sturgis?

  • @markrichards5630
    @markrichards5630 9 місяців тому +1

    Where are these magical moving positive charges coming from? If the protons are the cause of the positive charge and the protons aren't physically moving (that is the whole point of metals isn't it? A free electron that can move around but not protons ( or kernel) drifting around? - except through physical or thermal additions of course.), then what is causing the positive charges to move?
    I'm fine with length contraction on the negative charges moving because the electrons are moving. But once you start moving the positive charges too, they too will experience length contraction and that would cancel out any effects from "more of one kind of charge per inch" since the moving electrons also have more charges per inch and you are right back to no charge at all.
    Do we actually need the positive charges to move at all to explain where the charge imbalance is coming from? Doesn't this muddle the whole explanation?

  • @ger5989
    @ger5989 4 місяці тому

    Great video, I'm puzzled on one topic : The electron are moveing at a surtain speed and so it special relativity works. But the protons doesn't move only it's electric field and so you must talk about the speed of the electric field. And a electric field is foton based and therefore moving at the max speed the material can support (in vacuum known speed of light) So from that perspective the length contraction of proton should be infinite small. From a electron view there should be only one proton and from the proton view there is only one electron. Because the space is infinite small. (like the centre of a black hole). I know this must be not true because the wires should be instanely melted together but It keeps popping up in mine head. Could someone clearify what i'm doing wrong ?

  • @williamwalker39
    @williamwalker39 4 місяці тому +2

    This has nothing the do with Relativity. The phenomena you discuss can be explained using electromagnetic theory. The current in both wires create opposing magnetic fields, causing the wires to be attracted. The effects of Relativity are not real and are just an illusion.
    The speed of light is not a constant as once thought, and this has now been proved by Electrodynamic theory and by Experiments done by many independent researchers. The results clearly show that light propagates instantaneously when it is created by a source, and reduces to approximately the speed of light in the farfield, about one wavelength from the source, and never becomes equal to exactly c. This corresponds the phase speed, group speed, and information speed. Any theory assuming the speed of light is a constant, such as Special Relativity and General Relativity are wrong, and it has implications to Quantum theories as well. So this fact about the speed of light affects all of Modern Physics. Often it is stated that Relativity has been verified by so many experiments, how can it be wrong. Well no experiment can prove a theory, and can only provide evidence that a theory is correct. But one experiment can absolutely disprove a theory, and the new speed of light experiments proving the speed of light is not a constant is such a proof. So what does it mean? Well a derivation of Relativity using instantaneous nearfield light yields Galilean Relativity. This can easily seen by inserting c=infinity into the Lorentz Transform, yielding the GalileanTransform, where time is the same in all inertial frames. So a moving object observed with instantaneous nearfield light will yield no Relativistic effects, whereas by changing the frequency of the light such that farfield light is used will observe Relativistic effects. But since time and space are real and independent of the frequency of light used to measure its effects, then one must conclude the effects of Relativity are just an optical illusion.
    Since General Relativity is based on Special Relativity, then it has the same problem. A better theory of Gravity is Gravitoelectromagnetism which assumes gravity can be mathematically described by 4 Maxwell equations, similar to to those of electromagnetic theory. It is well known that General Relativity reduces to Gravitoelectromagnetism for weak fields, which is all that we observe. Using this theory, analysis of an oscillating mass yields a wave equation set equal to a source term. Analysis of this equation shows that the phase speed, group speed, and information speed are instantaneous in the nearfield and reduce to the speed of light in the farfield. This theory then accounts for all the observed gravitational effects including instantaneous nearfield and the speed of light farfield. The main difference is that this theory is a field theory, and not a geometrical theory like General Relativity. Because it is a field theory, Gravity can be then be quantized as the Graviton.
    Lastly it should be mentioned that this research shows that the Pilot Wave interpretation of Quantum Mechanics can no longer be criticized for requiring instantaneous interaction of the pilot wave, thereby violating Relativity. It should also be noted that nearfield electromagnetic fields can be explained by quantum mechanics using the Pilot Wave interpretation of quantum mechanics and the Heisenberg uncertainty principle (HUP), where Δx and Δp are interpreted as averages, and not the uncertainty in the values as in other interpretations of quantum mechanics. So in HUP: Δx Δp = h, where Δp=mΔv, and m is an effective mass due to momentum, thus HUP becomes: Δx Δv = h/m. In the nearfield where the field is created, Δx=0, therefore Δv=infinity. In the farfield, HUP: Δx Δp = h, where p = h/λ. HUP then becomes: Δx h/λ = h, or Δx=λ. Also in the farfield HUP becomes: λmΔv=h, thus Δv=h/(mλ). Since p=h/λ, then Δv=p/m. Also since p=mc, then Δv=c. So in summary, in the nearfield Δv=infinity, and in the farfield Δv=c, where Δv is the average velocity of the photon according to Pilot Wave theory. Consequently the Pilot wave interpretation should become the preferred interpretation of Quantum Mechanics. It should also be noted that this argument can be applied to all fields, including the graviton. Hence all fields should exhibit instantaneous nearfield and speed c farfield behavior, and this can explain the non-local effects observed in quantum entangled particles.
    *UA-cam presentation of above arguments: ua-cam.com/video/sePdJ7vSQvQ/v-deo.html
    *More extensive paper for the above arguments: William D. Walker and Dag Stranneby, A New Interpretation of Relativity, 2023: vixra.org/abs/2309.0145
    *Electromagnetic pulse experiment paper: www.techrxiv.org/doi/full/10.36227/techrxiv.170862178.82175798/v1
    Dr. William Walker - PhD in physics from ETH Zurich, 1997

  • @mikeettinger7132
    @mikeettinger7132 6 місяців тому

    I thought the field was a more screwy form in the direction of electron flow

  • @willthecat163
    @willthecat163 11 місяців тому

    I'd say magnetic forces and electric forces are just different manifestations of the electromagnetic force, which is a fundamental force, unlike either electric or magnetic forces.

    • @PhysicsWithoutMagic
      @PhysicsWithoutMagic 10 місяців тому

      Why would you say that as opposed to saying that magnetism is a name for electric forces?

  • @Adam-l3f4f
    @Adam-l3f4f 6 місяців тому

    "Adam you failed electromagnetism 101."
    I'm sorry peasant I was busy with magnetomagnetism and electroelectricity

  • @honeydavis5568
    @honeydavis5568 6 місяців тому

    I know all this. I would love to see the math to show why permittivity is so much worse than permeability.

  • @ross3818
    @ross3818 7 місяців тому

    Twice the speed? How is that? Wouldn't that mean twice the current?

  • @Kalumbatsch
    @Kalumbatsch 10 місяців тому +8

    That stuff about negative and positive charges flowing in opposite directions and cancelling each other out makes no sense. If you want to treat the current as positive "holes" going the other way, you have to treat the electrons as stationary. Otherwise you have twice the current.

    • @tictacX1
      @tictacX1 7 місяців тому +3

      Agree. I have studied this in my Physics BSc and I found the explanations a little hand-wavy. It feels as if there's a gap in our knowledge and it's not being addressed. Stuff not sexy enough for new researchers to re-xplore it

    • @ParadoxProblems
      @ParadoxProblems 6 місяців тому +1

      This is okay because "holes" don't really have charge. If we treat them as having charge +1, then we need to be consistent and shift all charges by +1. As such, the charge of the electron is neutral and doesn't produce a current while moving.

    • @DrDeuteron
      @DrDeuteron 6 місяців тому

      This made no sense to me at all. Positive charges don’t move, electrons do. Holes are totally unnecessary

    • @ChanduTadanki
      @ChanduTadanki 4 місяці тому +1

      ​​@@DrDeuteron Electricity was discovered in many decades before electron (negative charge). At that time, they hypothesized electricity to be a flow of positive charges. Later we re-explained it in terms of electrons, and re-interpreted the legacy positive charges as holes. So, holes are necessary if we want to see the historical evolution of the concepts.

    • @DrDeuteron
      @DrDeuteron 4 місяці тому

      @@ChanduTadanki ok, I have a phd in physics from a top 2 school, and everything I post is right.

  • @vik24oct1991
    @vik24oct1991 7 місяців тому +1

    doesn't explain why there is a magnetic field associated with even a single electron/proton moving at a constant speed, and the also the drift velocity of electrons is very small about 1mm per second, what relativistic effects such a small velocity will have, this relativity based explanation seems hand wavy at best.

    • @jamietroy7833
      @jamietroy7833 5 місяців тому

      I saw veritasium video about magnetism and it explained that the speed is very slow (not relatevistic) but the trillions of electrons kind of adds up to make the total speed be subject to relativistic effects.

  • @carmelpule8493
    @carmelpule8493 3 місяці тому

    When there is electron motion in each conductor then each conductor behaves as if it negatively charged, Surely two negatively charged particles tend to repel each other! Should this be considered. The two conductors could also be at different overall charge hence,
    It is not as simple as this is presented.
    At 40:06 let us assume those two separate conductors are fed with small floating batteries to create what the gentleman said. Well fine.
    Now let us take the upper conductor to 1,000,000 volts and the lower conductor to 100 volts keeping the floating batteries supplying the current shown through the conductors, Now the additional higher charge on the upper conductor will react with the lower additional charge on the lower conductor and AN ELECTRIC FIELD WILL APPEAR ACROSS THE UPPER AND LOWER CONDUCTOR.
    The two conductors now behave as normal transmission lines along which the E field is small ( batteries) but between them the E field is very high, due to the higher voltages between them Hence the E field bridging the conductors will be in tension pulling the conductors together while the field radiating out of each conductor will oppose each other as the hair on an electrostatic machine.
    In an electrostatic machine when a girl with her long hair places her hand on the high voltage of a Vander graph machine, her hair will radiate out as each hair is charged and push each other away. Note a spark due to a high E field tend to be in tension, So it is not a case of applying the Relative motion and it is more than that, I do believe that there are the electrons orbiting around the protons and also the electron spin which make each electron behaved as a spinning charged ball making it both an electric dipole and a magnetic dipole which will line up with external electric and magnetic fields, When spinning charged particle motion exists there is an ELECTRICAL OR MAGNETIC Magnus effect as happens when a spinning ball is kicked, or the wind blows on a rotating cylinder as in ships going back to 1900, These are simpler to understand than the relativity proposal.
    ua-cam.com/video/23f1jvGUWJs/v-deo.htmlsi=FKZWxuVLGjvOPyfa

  • @michaelkelly3239
    @michaelkelly3239 Рік тому

    Bob - How may obtain a list of your textbooks for a course I am teaching? The course is on DC and AC electric power and the physics of materials in support of the former. Thank you

  • @tygrmouse
    @tygrmouse 11 місяців тому

    if you counted the charges, you would not witness *more* electrons. It did not create matter to move.

  • @tictacX1
    @tictacX1 7 місяців тому

    If there was a positive current going one way and equivalent amount of negative charge going the other way, each is supposed to create the same magnetic field but in opposite signs and therefore no magnetic field should be present. This idea of positive holes moving is just contradictory and seems like hand-waving.

  • @joeboxter3635
    @joeboxter3635 10 місяців тому +1

    Special relativity has nothing to do with it. The electrons are moving well below the speed of light as they actually travel a short distance from atom to atom. The lorentz contraction is negligible and would not explain the kind of force we see. In deed, Maxwell Equations and in particular Farday's law was well established LONG before SR. It is simply that moving charge causes magnetic field.
    Here do this "thought experiment." Imagine an electron moving all by itself in free space. There is no charge imbalance of another proton. As it moves by a compass, it will cause the needle to bend. There is no length contraction or some kind of positive/negative charge imbalance. The electron motion, all by itself, is enough to cause a magnetic field. And the same thing is happening in the wire.
    This claim is as silly as a claim that electric fields arise due to mass and thus gravity resulting from SR. And the argument against this bit of foolishness is the same as the one above.

  • @udaykulkarni8989
    @udaykulkarni8989 5 місяців тому

    Very nice video like to listen hour together.thanks

  • @atheistaetherist2747
    @atheistaetherist2747 Рік тому +1

    This is all based on Purcell (1963).
    Purcell uses STR to explain the magnetic field near a wire. He applies LC to the train of electrons drifting along the wire, & he calculates that the increased charge explains the extra force on a test charge moving near the wire - no magnetic force needed.
    What a load of krapp.
    1. Purcell starts off by saying that a stationary charge near a wire with zero electricity suffers zero force (true).
    2. And that when a current is sent along the wire the charge suffers zero force (true).
    3. And that when the charge is then moved along next to the wire the charge suffers a force (true).
    4. Re (2), Purcell says that the drifting electrons decrease their spacings as seen by the charge due to LC, which would increase the charge on or in the wire.
    5. Re (4), Purcell says that we know that in (2)&(4) there is no increase in charge on or in the wire - hence the drifting electrons must somehow increase their spacings to offset the LC.
    6. Re (3), Purcell uses LC to calc the denser spacing of protons, to calc the force in (3).
    7. And then Purcell uses (5) to in effect double the calculated force in (6), to make his equation work proper.
    And Veritasium & Co on youtube reckon that the sun shines out of Purcell's bum.

    • @Dazza_Doo
      @Dazza_Doo Рік тому

      Protestants and Catholics fighting again? Most people don't even understand Transmission lines, little alone Maxwell-Heaviside equations. You are arguing to the 0.01% of those that can understand.

    • @Dazza_Doo
      @Dazza_Doo Рік тому

      It's also obvious that the teacher has the mindset of teaching young people, as he always talks about 'conventional current' and that the current is the energy in the wires, which I have learned from you know who (he must not be named) Veri.... Rick Hartley ( that was close) that isn't how Electricity works. Our case and point of the Transmission Line, which Electrons don't travel down the wire at all, they just isolate No current (Electrons flowing) form the Power Station makes it to my house or to his house

    • @atheistaetherist2747
      @atheistaetherist2747 Рік тому

      @@Dazza_Doo
      ELEKTONS & ELEKTICITY & ELEKTRONS FOR BEGINNERS.
      1. A good conductor of elekticity can be called a metal.
      2. A metal is a good conductor of elekticity.
      3. A metal has a thin layer of elektons on its outside surface - that is what makes it a metal.
      4. Non-metals do not have a layer of elektons on their surfaces.
      5. Elektons are photons that hug the surface….
      6. Whilst propagating at the speed of light in the medium touching the surface (eg air)(eg plastic insulation).
      7. Elektons move in every direction on the surface of a say Cu wire - but (eventually) mainly along.
      8. The propagation speed of elektons duznt depend on the kind of metal - all kinds of metals give the same speed.
      9. The ruffness of the surface slows the speed of elektons - due to the extra distance up&down over the ruffness.
      10. Elektons have a negative charge, equal to the charge attributed to the (silly) standard electron.
      11. Elektons go straight ahead - except that their trajekt is affected by other elektons (due to repulsion).
      12. Hence, after a while, elektons tend to move mainly along a wire (albeit in both directions).
      13. And, elektons follow the surface.
      14. If the surface of a wire duz a u-turn (eg at the blunt end of a wire) then elektons do a u-turn at the end (koz the surface duz a u-turn)(ie elektons follow the surface).
      15. Elektons form a thin negatively charged outer surface layer due to repulsion from atomic elektrons.
      16. Atomic elektrons are photons that orbit (hug) an atomic nucleus.
      17. The outer orbital elektrons escape from the nucleus, & form an outer layer of elektons (now hugging the general surface rather than hugging individual nuclei).
      18. The elektons are attracted to the positively charged nuclei.
      19. Different metals will have a different degree of saturation of elektons.
      20. The better conductors will have a denser saturation of elektons.
      21. A battery can supply elektons at the positive terminal….
      22. And rob elektons at the negative terminal.
      23. The supply etc of elektons can result in what we call voltage, or potential.
      24. The supply etc of elektons can result in what we call charge.
      25. A dead-end length of wire touching a positive terminal will be saturated with elektons going both ways along the wire (doing u-turns at the dead-end).
      26. Elektons do not reflekt off or at a dead-end (they do a u-turn).
      27. When the flow of elektons going each way is equal then their magnetic fields cancel…
      28. And hence their nett magnetic field is zero (in the far field)….
      29. And there is no heat loss in the wire.
      30. A dead-end length of wire touching a negative terminal will be saturated with elektons going both ways along the wire (doing u-turns at the dead-end).
      31. The numbers of elektons going up & down a dead-end wire will depend on the degree of saturation.
      32a. The degree of saturation will depend on the surface area available etc….
      32b. And whether the wire has a coating of insulation.
      33. This saturation creates what we call resistance….
      34. Or, if u like, this resistance creates saturation (many processes are chicken'&'egg).
      35. Once u have learnt the above rules then u will understand that if u somehow discharge/short/earth a length (L) of wire, then u can expect that the primary discharge will take a duration of 2L/c seconds (ie it wont take L/c seconds).
      36. And the discharge voltage will be V/2 (ie it wont be the more obvious V/1)
      37. And if that there wire is insulated then the duration will take 3L/c seconds (as per (6) & (32b)).
      Enuff for today.

    • @Dazza_Doo
      @Dazza_Doo Рік тому

      @@atheistaetherist2747 that's a lot ... Most of the top part seems to be Skin Effect.
      Then you talk about Batteries creating the flow of electrons from the Positive end of the Battery, it's not that important, as Current can flow in both directions and do with AC. So Electrons flow isn't important, as the EM field is the energy in a circuit. It's only important for Diodes and 1 way devices with are Doped Silcon, as you know. There is no heat loss in a wire, I assume you mean that the conductor doesn't radiate IR waves? Sure they do, everything Does, that's the property of matter. Lets try this - can I use a IR camera to see circuit board traces? Yes of course, in fact they use it to detect hotspots.
      How old is this text book? The old use of the term Electrons is interesting.
      Electric Current is the Effect of the EM field on the conductor. Electron Drift is Microscope - this is proven by AC circuits were NO Electrons (Current) will travel from the AC power source to the end load (See Transmission lines). Therefore, current direction matters not in regard to the flow of Energy in a Circuit, only for components that have been Doped in such manner. Current and Voltage are measurements of the Medium, they are Effectors not Affecters.

  • @alienq360
    @alienq360 10 місяців тому

    Wait seeing this explaination i feel like electrons and protons etc are living things like they have conscious😂

  • @michaellamoreaux4402
    @michaellamoreaux4402 3 місяці тому

    You really seem to have it together, which is a rarity. This is off topic, but I did not know how else to communicate with you. I have discovered that Faraday's law of induction is false. It is unintentional disinformation. Allow me to explain. Assume a static magnetic field, part of which is linked to a circuit. If the circuit changes size or part of it moves, Faraday's law states that the change of flux linking the circuit produces an emf in the circuit. This is false. The change of flux has no effect. There is an emf in the circuit. It is motional emf due to the motion of the conductor through the magnetic field. Thus, Faraday's law is false and does not belong in the textbooks.

  • @leonhardtkristensen4093
    @leonhardtkristensen4093 Рік тому

    Why does magnetism follow iron but not cobber? Iron and cobber are both metals and relatively good connectors. What I am saying is that there are materials that stop magnetic fields but not electric fields and visa versa. Both electric and magnetic fields exists I believe.

    • @willthecat163
      @willthecat163 11 місяців тому

      AFAIK, there is not material that can 'stop' or block a magnetic field. There are no magnetic charges. (See Guass's Law for Magnetism) Magnetic materials can only redirect the magnetic field, so as to reduce it outside the material. IMO, electric and magnetic fields are only manifestations of the fundamental force; the electromagnetic force.

  • @hosh1313
    @hosh1313 Рік тому +1

    Consider an electron outside a current carrying wire and not moving relative to the wire. So due to length contraction of the electrons in the wire, the electron outside the wire ought to be repelled but we know it isn't ------> utter nonsense.
    A current carrying wire represents zillions of changing electric fields due to relative motion between electrons and positively charged nuclei. Changing electric fields -------> magnetic fields.
    End of story! Nothing to do with failed relativity whatsoever!

    • @pedrooctavio6383
      @pedrooctavio6383 Рік тому

      A current-carrying wire creates a magnetic field. While it's tempting to think a stationary charge near this wire would feel a force, that's not true due to relativity. See the moving electrons in the wire undergo length contraction, appearing more dense but the "holes" left behind by these electrons also move and contract, appearing more dense to. So those two effects cancel out, and relativity perfectly explains why a resting charge nearby feels no net force due to the wire's constant magnetic field.

    • @hosh1313
      @hosh1313 Рік тому

      @@pedrooctavio6383 Sorry, but that just doesn't work.
      Not only is this situation a typical failed attempt to apply relativity to everything, it is in fact just another proof that relativity is wrong.

    • @willthecat163
      @willthecat163 11 місяців тому

      @@hosh1313 Hey, I'm ready to believe you if you can show a mathematical proof... or just one example of an experiment that proves Special Relativity is wrong. (So far 100 years of questioning Special Relativity hasn't managed to do that.)

    • @hosh1313
      @hosh1313 11 місяців тому

      @@willthecat163 Here's a few things for you to consider.
      1/ Cosmological red shift is a violation of the conservation of energy.
      2/ How does a no aether theory explain an accelerating expanding universe? Where does the force come from?
      3/ Aether can explain unaccounted for gravity in the outlying regions of galaxies.
      Aether theories have no problems with these issues.

    • @arcofficial516
      @arcofficial516 10 місяців тому

      Dude I have a question. How does an electromagnet work? How does it attract stuff? Why does a moving charge exhibits magnetic field?
      I see all the explanations using Einstein's relativity is in context of moving charge. But when we make electromagnet we don't have to move iron in order for it to stick. It stick right away. But why?

  • @djolesik840
    @djolesik840 9 місяців тому +1

    Dumb explanation, for electrons and protons psychology does not works.

  • @dboser1
    @dboser1 8 місяців тому +2

    Please just remove the pen caps and leave them off the pens. It is so annoying putting them on and off!!!

    • @bryanrodrigues7375
      @bryanrodrigues7375 8 місяців тому +4

      I suppose you are not aware that if the markers are kept open for some time, they dry up. That's why he is putting the caps back on after writing. He is making such a great effort to explain the subject, the pen shouldn't have distracted you.

    • @dboser1
      @dboser1 26 днів тому

      The pens aren’t going to dry up in 1 hour

  • @qewqeqeqwew3977
    @qewqeqeqwew3977 10 місяців тому

    That is completely wrong.

  • @opeyemiolawoore4388
    @opeyemiolawoore4388 6 місяців тому +1

    Omg!🥲🙌, finally! I've found my answer!