Rutherford,s Scattering Exþeriment?
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The Rutherford gold foil experiment or alpha particles scattering experiment remains a famous experiment in the history of science. Between 1908 and 1913, a series of experiments were performed by Hans Geiger and Ernest Marsden under the guidance of Ernest Rutherford.
Because of the experiments were performed by Geiger and Marsden, it is also called as the Geiger-Marsden experiments. The experiments led to the discovery of the nucleus and gave birth to the nuclear model of the atom. The outcomes of the experiments debunked the idea the positive charge was uniformly distributed in the atom and demonstrated the presence of a central nucleus, where all of its positive charge is concentrated.
Rutherford's gold foil experiment
The experiment was not a single experiment but a series of experiments. All the experiments can be summarized using the illustration below.When Rutherford along with his colleague shot alpha particles, the positively charged helium nuclei, on a very thin gold foil, unexpected scattering of the particles was observed. The illustration above depicts a radioactive source enclosed in a lead block liberates alpha particles. The lead block acts as a shield and sharpens the beam. The beam moves through space and strikes the gold foil of a few thousand atoms thick. A circular zinc sulphide fluorescent screen surrounds the foil. The particles leaving the foil after the strike make tiny glowing flashes on the screen called scintillations, which can be measured using a microscope.
As we can see from the figure, most particles remain undeflected, i.e. they continue to travel a straight path as if the gold foil was absent. Most particles which are scattered have less than 90° deflection while few particles cross 90°.
Before proceeding to analyse the outcomes of the experiment, let's quickly review Thomson's atomic model.
Thomson's view on atoms
In the 1900s, Thomson's atomic model was dominant. He explained an atom as a sea of positive charge with floating negatively charged electrons. According to him, the positive charge was uniform throughout the atom, and the magnitude of it was equal to negative charges. Contrast between the experiment and Thomson's model
The experiment results obtained from the alpha particles scattering experiment contradict Thomson's model. Rutherford was astonished by this. According to Thomson's model, the positive charge is uniformly spread throughout the atom, which creates a weak electric field. When alpha particles, which are heavy energetic radiation, were bombarded on the gold foil, it was expected that the beam would penetrate the foil with slight divergence and with a reduction in speed. The deviation of the beam would be small. No bouncing back of the particles was expected. However, the observations were different. They are summarized into three main points.
Most α-particles passed the foil without much deviation.
A small number of particles were deflected by the foil, and this deflection was very small.
A very small fraction of the particles were deflected by large angles (greater than 90°); a minuscule number of particles were deflected by angles greater than 150°.
Rutherford's conclusions
Based on the above observations, Rutherford argued the following points:
Since most particles were not deviated, the atom must mostly be empty.
A small fraction of the particles were deflected by large angles. Thus, there should be a strong repulsive force in an atom. Rutherford proposed the presence of a central positively charged nucleus. Furthermore, he estimated the size of the nucleus of the gold atom was very small in comparison with the atom.
From these conclusions, he conceptualized a new atomic theory, that we now called Rutherford's atomic model. It says the atom has a central positively charged nucleus that is surrounded by electrons. This model superseded Thomson's model.
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