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Rutherford’s Electron Experiment: Atomic Arrangement
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- Ernest Rutherford designed an experiment to know the arrangement of electrons within the atom.
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Use of α- Particle: Rutherford’s Gold Foil Experiment
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- In this experiment, fast moving alpha (α)-particles were made to fall on a thin gold foil.
- Selection of Gold Foil: He selected a gold foil because he wanted as thin a layer as possible and this gold foil was about 1000 atoms thick.
- About α-particles: These particles are doubly-charged helium ions.
- Since they have a mass of 4u, the fast-moving α-particles have a considerable amount of energy.
- Deflection: It was expected that α-particles would be deflected by the subatomic particles in the gold atoms.
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Deviated Result in Rutherford’s Alpha-Particle scattering experiment
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- The α-particle scattering experiment gave totally unexpected results.
- Most of the fast moving α-particles passed straight through the gold foil.
- Some of the α-particles were deflected by the foil by small angles.
- One out of every 12000 particles appeared to rebound.
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Observations: Atom’s Empty Spaces and Concentrated Positive Charge
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- Rutherford concluded from the α-particle scattering experiment that–
- Most of the space inside the atom is empty because most of the α-particles passed through the gold foil without getting deflected.
- Very few particles were deflected from their path, indicating that the positive charge of the atom occupies very little space.
- A very small fraction of α-particles were deflected by 1800, indicating that all the positive charge and mass of the gold atom were concentrated in a very small volume within the atom.
 Scattering of α-particles by a gold foil
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Calculating Nucleus Radius
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- He also calculated that the radius of the nucleus is about 105 times less than the radius of the atom.
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Nuclear Model of an Atom and the Central role of the nucleus
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- On the basis of his experiment, he put forward the Nuclear Model of an Atom.
- There is a positively charged centre in an atom called the nucleus.
- Nearly all the mass of an atom resides in the nucleus.
- The electrons revolve around the nucleus in circular paths.
- The size of the nucleus is very small as compared to the size of the atom.
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Drawbacks of Rutherford’s model: Stable Reality of Atoms
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- The revolution of the electron in a circular orbit is not expected to be stable.
- Any particle in a circular orbit would undergo acceleration and would radiate energy.
- Thus, the revolving electron would lose energy and finally fall into the nucleus.
- If this were so, the atom should be highly unstable and hence matter would not exist in the form that we know.
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