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The atom theory of matter Electrons and nuclei The discovery of the electron Thomson (1897) If we apply an electric tension between the end-sides of the bulb Crookes discovered “cathode rays” (1879) In 1897 Thomson discovered that cathode rays are made up of the same corpuscles He built an apparatus provided with deflecting electric and magnetic field (such as the one that we saw in our lab last year), and he succeeded in determining the value of the ratio charge-to-mass, the so called specific charge of what he named “electron”. e 11 1,76 10 C / kg m Electron is a very light corpuscle Most of the mass of an atom should be made of positive matter. Thomson proposed the plum pudding model: The atom is a sort of “plum pudding” with electron embedded (like the plums) in a heavily positive dough. the plum pudding model The electrons are the blue points, the red sphere is the positive dough Thomson’s model was decisively repudiated by Rutherford’s scattering experiment Rutherford tested the Thomson model by firing alfa-particles into a sheet of gold foil … He found that it doesn’t work well! Most of the alfa-particles passed right trough, but a few bounced right back, indicating that they had hit something small and heavy. What are alfa-rays? Let’s see X-rays, first! The luminescence that we can see when cathode rays hit the glass or the sheet of ceramic foil is due to the rapid deceleration that the electrons suffer. The electromagnetic energy irradiated can be up to 3 keV (this is the energy that the electronic gun supplies the electrons). If the energy has increased up to 30 keV than the electromagnetic energy is irradiated in the X-ray range of the electromagnetic spectrum (these rays are also invisible and mysterious, so Roentgen, who first detected them in 1895, called them X-rays) Bequerel discovered ,, rays (1896) Now … Now we know that -rays are a flow of helium nuclei (i.e. two protons and two neutrons), rays are a flow of electrons, and -rays are electromagnetic waves (they are actually a flow of photons, as we’ll see later) The experimental data suggested a planetary model. The Rutherford experiment and his model of an atom • Electrons orbit around a circle whose radius is about 10-10 m . At the centre of the circle there is the nucleus, a small sphere whose radius is about 10-15 m. • This model permits us to understand why most of the alfa-particles pass right trough the atom: there is a lot of empty space there! Instead, the unlikely particles which move just towards the nucleus, suffer a very strong repulsion: they can be bounced right back!
