Radioactivity 1 輻射

Radioactivity 1輻射 Presented byMr. Y. N. ChanLIU PO SHAN MEMORIAL COLLEGE

History of Radioactivity • In 1896, Becquerel noted that radiation from uranium affected photographic plates. • In 1899, Curie noted that thorium and radium showed also the same effect on photographic plates.

What is Radioactivity ? • Radioactivity are reactions through which the unstablenuclei become more stable. • Energetic radiations will be emitted during the process. Unstable Nucleus More Stable Nucleus + Radiation

Types of Radiation • There are THREE types of radiation: -rays  -rays  -rays Helium Nucleus Fast-moving Electrons Light waves with very short wavelength

Revision Beta Particle Alpha Particle Gamma Ray More Stable Nucleus Unstable Nucleus

Properties of Radiation • Charge and Mass • Deflection in Electric Field • Deflection in Magnetic Field • Ionization Power • Penetration Power • Range in air

Charge and Mass  -particle  -particle  -ray Helium Nucleus Light Wave (short ) Electron -1 Charge +2 Nil 4 Nil Mass Negligible

Deflection of Electric Field -ve    +ve

Deflection of Magnetic Field -ray -ray What is the direction of the magnetic field ? + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + -ray Magnetic Field

What are the penetrating power ofa , bandgray ?  - rays  - rays  - rays

The penetrating power ofa , bandgradiation (1) Paper  - rays  - rays  - rays

The penetrating power ofa , bandgradiation (2) Paper 5mmAl  - rays  - rays  - rays

The penetrating power ofa , bandgradiation (3) Paper 5mmAl Lead  - rays  - rays  - rays 100% 50% 2 cm

Ionization Power (1) • It is the ability of the radiation to ionize the air molecule. • Ionization Power:  >  > 

Ionization Power (2) • (1) Its momentum is the greatest • (2) Its charge is the greatest • (3) Its speed is the slowest -ray has the greatest ionization power because

The range in air ofa , bandgradiation  - rays 5 cm  - rays about 5 m  - rays Over 100 m

Detectors of Radiation • Photographic Film • G.M. tube • Cloud Chamber

Tracks in Cloud Chamber (1) -particles -particles -rays

Short Thick Straight Fork track may be seen Range is small Ionization is great Momentum is large Elastic collision with helium gas atom Tracks in Cloud Chamber (2) -particles Characteristics Reason

Zig-zag path diffuse Mass is smaller Range is longer Tracks in Cloud Chamber (3) -particles Characteristics Reason

Radiation is detected even when no radioactive substance is present. Cosmic Radiation (from outer space) Radiation coming from the environment (e.g. rock, concrete, artificial sources) Radon gas Background Radiation Experimental Result : Sources:

Biological Hazards (1) • immediate death • cause cancer • genetic changes • Large Dose • Small Dose • Very small Dose

Biological Hazards (2) • -rays is the most dangerous. (penetrating power is highest) • -rays is the most dangerous. (ionization power is highest.) • Outside the body • Inside the body

Radioactivity 1 END

Radioactivity 1 輻射