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

Atomic #

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

the element

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

Two types of isotope notation

1. Symbol notation

2. Hyphen notationPotassium – 39Potassium – 40Potassium – 41

Solve practice problem pg. 101 #14

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

Nuclear Decay (Radioactivity)

Unstable nuclei

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.

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.

Beta radiation

What would happen to the nuclear make-up as a result of beta radiation? Consider: carbon – 14.

+-+ -+

+

+

-+

-+-+

-+-+

++

+

-+ = neutron + = proton

Beta radiation

What would happen to the nuclear make-up as a result of beta radiation? Consider: carbon – 14.

+-+ -+

+

+

-+

-+-+

-+ +

++

+

-+ = neutron + = proton

-

Beta radiation

How many protons does it have now?

What is its mass number?

+-+ -+

+

+

-+

-+-+

-+ +

++

+

-+ = neutron + = proton

Alpha Radiation

An alpha (α) particle is the same as a helium nucleus and is therefore symbolized by: He4

2

-+ = neutron

+-+ -+

+

+

-+

-+-+

-+-+

++

+

+ = proton

+-+

+-+

+-+

+-+ +

-++-++-+

+-+

+-+

+-+

+-+

+-+

+-+

+-+

+-+

+-+

+-+

+-+

Alpha Decay

When an alpha particle is emitted from a nucleus, what is left? Consider Uranium – 238.

23892 U X + He4

2Th23490

Which kind of decay is represented by each change?

I – 130 → Xe – 130 Am-241 → Np-237

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.