Your SlideShare is downloading. ×
Electron Notes
Upcoming SlideShare
Loading in...5
×

Thanks for flagging this SlideShare!

Oops! An error has occurred.

×
Saving this for later? Get the SlideShare app to save on your phone or tablet. Read anywhere, anytime – even offline.
Text the download link to your phone
Standard text messaging rates apply

Electron Notes

200
views

Published on

Published in: Technology, Education

0 Comments
0 Likes
Statistics
Notes
  • Be the first to comment

  • Be the first to like this

No Downloads
Views
Total Views
200
On Slideshare
0
From Embeds
0
Number of Embeds
0
Actions
Shares
0
Downloads
1
Comments
0
Likes
0
Embeds 0
No embeds

Report content
Flagged as inappropriate Flag as inappropriate
Flag as inappropriate

Select your reason for flagging this presentation as inappropriate.

Cancel
No notes for slide

Transcript

  • 1. Energy Levels Each electron in an atom has a specific amount of energy. If an atom gains or loses energy, the energy of an electron can change .
  • 2. Energy Levels
    • Energy Levels: the possible energies that electrons in an atom can have
    • Example: A person walking up and down steps on a stair case
    • An electron in an atom can move from one energy level to another when the atom gains or loses energy
  • 3. Evidence for Energy Levels
    • What evidence is there that electrons can move from one energy level to another?
    • Scientists can measure the energy gained when the electrons move to a higher energy level. They can measure the energy released when the electron returns to the lower energy level
    • Example: The movement of electrons between energy levels explains the light you see when fireworks explode
  • 4. Electron Cloud Model
    • Bohr’s model was improved as scientists made further discoveries.
    • Bohr was correct when he said that electrons are located in certain energy levels. However he was incorrect in assuming that electrons moved like planets in a solar system. Today scientists know that electrons move in a less predictable way.
  • 5. Electron Cloud Model
    • Electron Cloud: a visual model of the most likely locations for electrons in an atom.
    • The cloud is denser at those locations where the probability of finding an electron is high. Scientists use the electron cloud model to describe the possible locations of electrons around the nucleus.
    • Example: Plane propeller
  • 6. Atomic Orbitals
    • Orbital: a region of space around the nucleus where an electron is likely to be found.
    • The electron cloud represents all the orbital in an atom. It is a good approximation of how electrons behave in their orbital
  • 7. Atomic Orbitals
    • The level in which an electron has the least energy- the lowest energy level- has only one orbital. Higher energy levels have more that one orbital.
    • Example: See figure 15 in the book on page 117
    • **Notice the maximum number of electrons in an energy level is twice the number of orbital. Each orbital can contain two electrons at most.
  • 8. Electron Configurations
    • A configuration is an arrangement of objects in a given space. Some configurations are more stable than others, meaning that they are less likely to change.
    • Electron configuration: the arrangement of electrons in the orbital of an atom.
  • 9. Electron Configurations
    • The most stable electron configuration is the one in which the electrons are in orbital with the lowest possible energies.
    • When all the electrons in an atom have the lowest possible energies, the atom is said to be in its ground state.
    • When an electron moves to an orbital with higher energy this is referred to as the excited state.