Lecture 01- Atomic Structure

Duration: 60 min DPT Medical Physics Lecture 01
Structure of Atom
Instructor:
Engr. Taimoor Muzaffar Gondal
taimoor.muzaffar@superior.edu.pk
Lecture 01

Atomic Structure
All matter is composed of atoms.
Understanding the structure of atoms is critical to understanding the
properties of matter

History of Atom
A Greek philosopher who was the first person to use the term atom.
He thought that if you take a piece of matter and divide it and continue to
divide it you will eventually come to a point where you could not divide it any
more.
This fundamental or basic unit was what Democritus called an
Theory of the universe:
1. All matter consists of atoms, which are bits of matter too small to be seen.
2. There is an empty space between atoms and Atoms are completely solid.
3. Atoms have no internal structure
4. Each atom (of a different substance) is different in size, weight and shape.
Democritus

1. All matter consists of tiny particles called atoms.
2. Atoms are indestructible and unchangeable.
3. Elements are characterized by the weight of their atoms.
4. When elements react, it is their atoms that have combined to form new
compounds.
John Dalton

J.J. Thomson
 Discovered Electron using Cathode Ray Tube.
 A vacuum tube, charge is passed through it.
 To see the charge a fluorescent screen is placed, charge will left a dot.
 Two oppositely charged deflecting coils are used.

 This beam will always travel straight if not interfered
 he deflection coils each have a specific charge. One is positive and the other
is negative.
 Thomson showed (as in the diagram above) that the charge would deflect
away from the negative coil.
 He then stated that this charge was thus a negative charge
 He did not predict the movement of these electrons.
 He predicted the mass of Electron and earned Nobel Prize in Physics.
Contd.

Ernest Rutherford
Gold Foil Experiment:
 He fired alpha particles (positively charged) at a gold foil.
 He measured the deflection as the particles came out the other side.
 Most of the particles did not deflect at all.
 But a fewer particles deflected in various direction.
 He said that there must be a positive center of the foil. He called this
center the nucleus.

atomic radius ~ 100 pm = 1 x 10-10 m
nuclear radius ~ 5 x 10-3 pm = 5 x 10-15 m

Neil Bohr
 Using his knowledge of energy and quantum physics he was
able to perfect Rutherford’s model.
 He was able to answer why the electrons did not collapse into
the nucleus.
 Electron orbit the nucleus in orbits that have a set size and energy.
 The lower the energy of the electron, the lower the orbit.
 This means that as electrons fill up the orbitals, they will fill the
lower energy level first.
 If that energy level is filled, a new energy level will begin.
 Radiation is when an electron moves from one level to another.
Results

1. The smallest part of an element is called an atom.
2. Each atom (of an element) is different in structure from other atomsAn
atom can be divided in smaller subatomic particles: Protons, Electrons
and Neutrons
3. The nucleus is the center of an atom.
4. It contains protons and neutrons.
5. Electrons orbit the nucleus
6. As we go up the periodic table, an electron and proton is added.
Electrons occupy a certain energy level (of a certain size)
7. Once the energy level is full, a new level begins
8. Within each of these levels are specials types of orbitals.
9. These depend on the energy level Each orbital can contain two
electron
Summary of Atomic Structure

Conductors, Insulators and Semiconductor
The stability of the electrons in the outer ring determines whether a material made
from this element is a conductor, insulator, or semiconductor.
 Elements whose electrons are unstable and can easily move from one atom to
another make good conductors.
 Elements whose electrons are stable and can not easily move from one atom to
another make good insulators.
 Any elements that are not considered conductors or insulators are categorized
as semiconductors.

When an element’s outer electron ring is incomplete or not full, its electrons
can move more freely from one atom to another atom.
Elements whose electrons can move more freely make good conductors.
In general, most metals make good conductors because they only have one or
two electrons in their outer band.
Silver and gold are the best conductors. Copper is the second best conductor.
Most wiring uses copper wire because it is a good conductor and is less
expensive than the other metals.
Conductors

• When an element’s outer ring is complete, or full, its electrons can not
easily move from one atom to another atom.
• Elements whose electrons can not move freely make good insulators.
• Examples of good insulators are glass, plastic, rubber, paper, or air.
Most wiring uses plastic as an insulator.
• Plastics are polymers or long chains of atoms bonded to one another.
Viewing the atomic structure of plastics is far beyond the scope of this
class (If you are interested in such topics, you may want to take AP
Chemistry.).
• Neon and argon, both gases, are good insulators and are often used in
light bulbs.
Insulators

• When an element’s outer ring is neither complete nor incomplete, the
element is considered to be a semiconductor.
• Examples of good semiconductor materials are
• Carbon (used to make resistors)
• Silicon (used to make transistors)
Semi Conductors

End of Lecture 01
For any kind of queries and questions you are advised to
write at
taimoor.muzaffar@superior.edu.pk
Or visit my office during consulting hours
This lectures can also be downloaded from
https://www.slideshare.net/Taimoor_Gondal

Lecture 01- Atomic Structure

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Lecture 01- Atomic Structure