Presentation is loading. Please wait.

Presentation is loading. Please wait.

Radioactivity and radioisotopes

Similar presentations


Presentation on theme: "Radioactivity and radioisotopes"— Presentation transcript:

1 Radioactivity and radioisotopes

2 A very brief history of the discovery of radioactivity
Dear Marie, do you remember those uranium compounds that glow when I put them under sunlight? Well, guess what I found out last night as I put them in my drawer… in the same drawer I had a key on top of a film plate. When I developed the film the image of the key was impressed on it, although the film was wrapped! These compounds must emit invisible rays that penetrate certain materials. I think I’ll call them Radioactivity. Henri Bequerel ( ) Don’t say more dear Professor! I have taken on the work you have passed on to me and I have already discovered two new elements more radioactive than uranium, polonium and radium. To isolate 1 g of radium I had to buy a tonne of pitchblende and separate the radium. The amazing thing is that the radium is about one million times more radioactive than uranium! Have a fun start to the topic by getting three pupils to act the Physicists out! Then, start a class discussion on how radioactivity was discovered. Marie Curie ( ) Hey guys, thank you for this stuff! Now that we know so much I can find out the nature of this radioactivity pal! In fact, I have already discovered that there are at least two kinds of radiation. I’ve called the first alpha. This gets easily absorbed and it’s positively charged. The second is beta, it is more penetrative and has negative charge. Ernest Rutherford ( )

3 What is radioactivity? Radioactivity is the spontaneous emission of energy and particles due to the breaking down (disintegrating) of the nuclei of unstable atoms. Energy Particles

4 What is radioactivity? It is not known what causes this spontaneous decay of the nucleus. However we know the nature of the radioactivity. It can manifest in three forms; alpha and beta particles and gamma radiation. Gamma rays Beta particles Alpha particles

5 What is radioactivity? Suggest reasons why the rate of radioactive decay seems not to be affected by chemical reactions, temperature, or pressure. Chemical reactions involve only electrons within atoms and energy of the order of a few eV. Even at high temperatures of 6000 K (surface temperature of the Sun) the vibration energy of the atoms only about 1 eV. But binding energies of nuclei are of the order of 10 MeV ( eV).

6 The three types of radiation
Use this table to find information about and to compare a, b and g radiation Alpha (a) Beta (b) Gamma (g) Nature Charge Mass Speed Ionizing effect Most dangerous Use this chart to gauge the pupils’ previous knowledge from their GCSE exams about the nature of radiation! They can use the Internet to research the properties of the three types of radiation, books, or simply fill the table in from their present knowledge.

7 The three types of radiation
Use this table to find information about and to compare a, b and g radiation Alpha (a) Beta (b) Gamma (g) Nature It’s a nucleus of helium Two protons and two neutrons It’s an electron e- It’s an electromagnetic wave Charge Mass Speed Ionizing effect Most dangerous

8 The three types of radiation
Use this table to find information about and to compare a, b and g radiation Alpha (a) Beta (b) Gamma (g) Nature It’s a nucleus of helium Two protons and two neutrons It’s an electron e- It’s an electromagnetic wave Charge +2 -1 Mass Speed Ionizing effect Most dangerous

9 The three types of radiation
Use this table to find information about and to compare a, b and g radiation Alpha (a) Beta (b) Gamma (g) Nature It’s a nucleus of helium Two protons and two neutrons It’s an electron e- It’s an electromagnetic wave Charge +2 -1 Mass Relatively large Very small No mass Speed Ionizing effect Most dangerous

10 The three types of radiation
Use this table to find information about and to compare a, b and g radiation Alpha (a) Beta (b) Gamma (g) Nature It’s a nucleus of helium Two protons and two neutrons It’s an electron e- It’s an electromagnetic wave Charge +2 -1 Mass Relatively large Very small No mass Speed Slow Fast Speed of light Ionizing effect Most dangerous

11 The three types of radiation
Use this table to find information about and to compare a, b and g radiation Alpha (a) Beta (b) Gamma (g) Nature It’s a nucleus of helium Two protons and two neutrons It’s an electron e- It’s an electromagnetic wave Charge +2 -1 Mass Relatively large Very small No mass Speed Slow Fast Speed of light Ionizing effect Strong Weak Very weak Most dangerous

12 The three types of radiation
Use this table to find information about and to compare a, b and g radiation Alpha (a) Beta (b) Gamma (g) Nature It’s a nucleus of helium Two protons and two neutrons It’s an electron e- It’s an electromagnetic wave Charge +2 -1 Mass Relatively large Very small No mass Speed Slow Fast Speed of light Ionizing effect Strong Weak Very weak Most dangerous When source is inside the body When source is outside the body


Download ppt "Radioactivity and radioisotopes"

Similar presentations


Ads by Google