Unit IV: Nature of Matter

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Presentation transcript:

Unit IV: Nature of Matter Lesson 1 Atomic Theories

Objectives You will be able to – Explain how the discovery of cathode rays contributed to the development of atomic models – Explain JJ Thomson’s experiment and the significance of it to the understanding of the atom.

Dalton’s Model John Dalton took what was known about chemical reactions at his time and proposed the first atomic model. – Conservation of Mass – Law of Multiple Proportions – Law of Definite Composition

Billiard Ball Model Dalton combined the observations into one theory which stated that all matter was composed of small indivisible particles that he called atoms. Demitri Mendeleev used this theory when he constructed the first working periodic table.

Cathode Rays Crookes worked in the areas of chemistry and physics. He had many accomplishments, one of which was the discovery of cathode rays.

Crookes Tube A source of high potential difference was placed across the cathode of a glass tube that had gas at a very low pressure inside. Noticed a glow coming from the negative terminal

Properties of Cathode Rays A wide variety of cathodes (different metals) were tested and all produced same results. Magnetic fields deflected the rays. The rays produced some chemical reactions similar to those produced by light.

Properties of Cathode Rays The rays traveled in straight lines, perpendicular to the surface of the cathode

Properties of Cathode Rays Had trouble showing that electric fields caused deflection of the beam. This was eventually accomplished by J.J. Thomson. The rays were believed to be streams of particles. Thomson named them electrons and changed the model of the atom.

Thomson’s Charge to Mass Ratio It was noticed that the beam of electrons could be bent by a magnetic field. This means that Fnet = Fm, so : mv2 = Bqvr So q/m = v/Br

Derivation of Equation Thomson did not have a way of measuring the velocity directly, but he knew that he could keep the beam traveling in a straight line if he balanced the electric and magnetic forces acting on it. Fe = Fm |E|q = Bqv so : v = |E|/B

Derivation of Equation By substituting these results into the first equation he came to; q/m = v/Br = |E|/B2r Thomson calculated the charge to mass ratio of the electron to be 1.76 x 1011 C/kg. This ratio is constant for all materials.

The Raisin Bun Model Thomson was able to show that electrons had the following properties: 1. Emitted by a wide variety of cathodes 2. About 2000 times smaller than hydrogen The new atomic model had the negative electrons (raisins) imbedded in a sea of positive charge (bun). Sometimes called the Plum Pudding Model.