More Atomic History!.

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Presentation transcript:

More Atomic History!

Neon

Neon

Anode (+) Cathode (–)

Anode (+) Cathode (–) Cathode ray

J. J. Thomson (1897) J. J. Thomson was experimenting with cathode ray tubes. He decided to bring charged electric plates near a cathode ray.

Anode (+) Cathode (–)

Anode (+) + Cathode (–) –

Thomson discovered that the cathode ray appeared to be deflected in the direction of the positively charged plate. Because he knew that opposite charges attract, he concluded that the cathode rays must be negatively charged.

Thomson calculated that whatever this negatively charged stuff was, it was much much smaller than the smallest atom. Also, this experiment worked when he tried different metals for the cathode and anode.

Dalton Timbit Models

Thomson calculated that whatever this negatively charged stuff was, it was much much smaller than the smallest atom. Also, this experiment worked when he tried different metals for the cathode and anode.

Atoms contain negatively charged particles. Thomson’s Conclusion Atoms contain negatively charged particles. These are called electrons.

By the way, atoms are divisible! I discovered the electron, a negative particle, that makes up part of the atom. Atoms are positively (+) charged balls with electrons (-) imbedded (like a chocolate chip muffin). The net result is a neutral atom. By the way, atoms are divisible! !

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Fun fact: Old TVs and computer screens (not flat screens) work by cathode ray tubes.

I bombarded gold foil with alpha (+) particles. Ernest Rutherford Radioactive substances can give off alpha (+), beta (-) and gamma (neutral) radiation. I bombarded gold foil with alpha (+) particles. ! Ernest Rutherford, 1911

I bombarded gold foil with alpha (+) particles. Ernest Rutherford Radioactive substances can give off alpha (+), beta (-) and gamma (neutral) radiation. I bombarded gold foil with alpha (+) particles. ! Ernest Rutherford, 1911

Gold Foil Experiment

Atoms are mostly empty space. 2 conclusions Atoms are mostly empty space. An atom contains a very dense and small nucleus. The nucleus is positively charged.

Atoms are mostly empty space. 2 conclusions Atoms are mostly empty space. An atom contains a very dense and small nucleus. The nucleus is positively charged.

If this soccer ball were the nucleus of an atom, how far away would the nearest electron be?

Atoms are mostly empty space. What can we conclude from this? Atoms are mostly empty space.