Alpha Particle Scattering Experiment (OCR A Level Physics)
Revision Note
Alpha Particle Scattering Experiment
Evidence for the structure of the atom was discovered by Ernest Rutherford in the beginning of the 20th century from the study of α-particle scattering
The experimental setup consists of alpha particles fired at thin gold foil and a detector on the other side to detect how many particles deflected at different angles
α-particle scattering experiment set up
α-particles are the nucleus of a helium atom and are positively charged
When α-particles are fired at thin gold foil, most of them go straight through but a small number bounce straight back
What did the Alpha Particle Scattering Experiment Show?
The Rutherford alpha particle scattering experiment showed that:
The majority of α-particles went straight through (A)
This suggested the atom is mainly empty space
Some α-particles deflected through small angles of < 10o (B)
This suggested there is a positive nucleus at the centre (since two positive charges would repel)
Only a small number of α-particles deflected straight back at angles of > 90o (C)
This suggested the nucleus is extremely small and this is where the mass and charge of the atom is concentrated
It was therefore concluded that atoms consist of small dense positively charged nuclei
Since atoms were known to be neutral, the negative electrons were thought to be on a positive sphere of charge (plum pudding model) before the nucleus was theorised
Now it is known that the negative electrons are orbiting the nucleus. Collectively, these make up the atom
Worked Example
In an α-particle scattering experiment, a student set up the apparatus below to determine the number n of α-particle incident per unit time on a detector held at various angles θ.
Which of the following graphs best represents the variation of n with θ from 0 to 90°?
Answer: A
The Rutherford scattering experiment directed parallel beams of α-particles at gold foil
The observations were:
Most of the α-particles went straight through the foil
The largest value of n will therefore be at small angles
Some of the α-particles were deflected through small angles
n drops quickly with increasing angle of deflection θ
These observations fit with graph A
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