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Atomic #  # of protons in an atom  Never changes for a given element  Therefore, used to always identify the element.

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Presentation on theme: "Atomic #  # of protons in an atom  Never changes for a given element  Therefore, used to always identify the element."— Presentation transcript:

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2 Atomic #  # of protons in an atom  Never changes for a given element  Therefore, used to always identify the element

3 Isotopes  Not all atoms of a particular element are identical  #of neutrons can differ – atomic masses differ  Element with same # of protons and electrons, but different # of neutrons

4 Two types of isotope notation 1. Symbol notation 2. Hyphen notation Potassium – 39 Potassium – 40 Potassium – 41 Solve practice problem pg. 101 #14

5 Average atomic mass  Atomic mass reported on periodic table  Sum of all masses of each isotope x relative abundance of each isotope in decimal form  Pg. 104 #15

6 Nuclear Decay (Radioactivity) Unstable nuclei

7 Subatomic particles  Electron -negatively charged particle found outside the nucleus.  Proton – positively charged subatomic particle found inside the nucleus.  Neutron – Neutrally charged (no charge) subatomic particle found inside the nucleus.

8 Some Surprises  A neutron is a proton with a captured electron.  A neutron can become a proton by losing that electron.  That electron, when it comes flying out of the nucleus, will be called a beta particle. It’s symbol is the Greek letter β.

9 Beta radiation  What would happen to the nuclear make-up as a result of beta radiation? Consider: carbon – 14. + -+ + + + + + = neutron + = proton

10 Beta radiation  What would happen to the nuclear make-up as a result of beta radiation? Consider: carbon – 14. + -+ + + + + + + = neutron + = proton -

11 Beta radiation  How many protons does it have now?  What is its mass number? + -+ + + + + + + = neutron + = proton

12 Alpha Radiation  An alpha ( α ) particle is the same as a helium nucleus and is therefore symbolized by: He 4242

13 -+ = neutron + -+ + + + + + + = proton + -+ + + + + + + + + + + + + + + + + +

14 Alpha Decay  When an alpha particle is emitted from a nucleus, what is left? Consider Uranium – 238. 238 92 U X + He 4242 Th 234 90

15 Which kind of decay is represented by each change?  I – 130 → Xe – 130  Am-241 → Np-237

16 Three Kinds of Decay  Alpha – a helium nucleus, cannot penetrate paper.  Beta - an electron which is emitted from the nucleus. Can penetrate paper, but cannot penetrate aluminum foil.  Gamma ray – not a particle. 50% emitted will penetrate 1cm of lead.

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