We commence this series of learning resources on the Atomic Model with a slide set detailing the evolution of atomic model. These learning slides cover George Dalton's Atomic Theory, J.J. Thomson's Discovery of the Electron, Rutherford's Discovery of Nucleus, Chadwick's Discovery of the Neutron and nuclear energy.
George Dalton was the first person to propose an atomic theory. His model stated:
All matter is made up of tiny hard spheres known as atoms
Atoms cannot be created or destroyed
Atoms cannot be broken down into smaller particles
All the atoms in an element are identical
George Dalton's Atomic Theory (1807)
Diapositiva 2
J.J. Thomson's Discovery of the Electron (1897)
Performed many experiments involving applying high voltages across vacuum tubes - which causes the tube to glow
These vacuum tubes are known as cathode ray tubes
Thomson measured the mass of the particles in these rays
Found that they were much lightest than the smallest atom and therefore must consist of sub-atomic particles
Before Rutherford's experiments: The atom was considered using the Thomson's Plum Pudding Model - a sphere of positive charge with electrons distributed randomly in it
Rutherford's experiments: Involved bombarding gold foil with positively charged particles known as alpha particles
What the atomic model at the time would have predicted: Most of the alpha particles would be deflected straight back
What actually happened: Most of the alpha particles passed straight through, some were slightly deflected and a very small number bounced straight back
Rutherford's conclusions: The atom must be mostly empty space, with a positive central nucleus that contains most of the mass
This is sometimes known as the Geiger and Marsden experiment as it was carried out by two of Rutherford's assistant with those names.
By firing neutrons at U-235, a nucleus can be split in a process called nuclear fission
Produces new elements and transfers large amounts of energy
This energy is used to produce electricity in nuclear power plants