445320
Beschreibung
Mindmap von Beth Ritchie, aktualisiert more than 1 year ago
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Erstellt von Beth Ritchie
vor fast 11 Jahre
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Inside the atom
- Structure
- So small, need an electron microscope to see them
- Alpha scattering investigation - Rutherford
- Showed
- Positive nucleus
- Protons
- Neutrons
- Protons
- Electrons surrounding nucleus
- Negative charge (-1.6x10^-19 C)
- Held by electrostatic attraction
- Negative charge (-1.6x10^-19 C)
- Positive nucleus
- Procedure
- Alpha particles at gold foil
- Most went through undetected
- Some were deflected back at large angles
- Small number deflected backwards
- Enter text here
- Alpha particles at gold foil
- Showed
- So small, need an electron microscope to see them
- Isotopes
- Different numbers of neutrons
- Nucleon number - Protons and neutrons, mass number
- Different numbers of neutrons
- Specific charge
- Charge/Mass
- Charge/Mass
- Strong nuclear force
- Force holding nuclei together
- Overcomes electrostatic force of repulsion between protons
- Keeps protons and neutrons together (in stable nuclei)
- Range no more than 3-4fm
- Diameter of small nucleus
- Diameter of small nucleus
- Has the same effect on two protons as on two neutrons
- Attractive force from 3-4fm down to about 0.5fm
- At separation smaller than this, it is repulsive and prevents protons and neutrons being pushed into eachother
- At separation smaller than this, it is repulsive and prevents protons and neutrons being pushed into eachother
- Force holding nuclei together
- Radioactive decay
- Alpha radiation
- Helium nucleus released (2 p 2 n)
- Helium nucleus released (2 p 2 n)
- Beta radiation
- Fast moving electrons
- Charge equal and opposite to the proton
- Charge equal and opposite to the proton
- Neutron becomes a proton
- Antineutrino emitted
- Fast moving electrons
- Gamma radiation
- EM radiation
- Can pass through thick metal plates
- No mass or charge
- Emitted from a nucleus with too much energy, after alpha or beta emission
- EM radiation
- Alpha radiation
- Elusive particle
- Energy spectrum of
beta particles measured
- Energy appeared not to be conserved
- Actually carried away by particles
- Actually carried away by particles
- Energy appeared not to be conserved
- Particles were called neutrinos or anti neutrinos
- Detected due to their interaction with cadmium nuclei in a large tank of water
- Energy spectrum of
beta particles measured
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