4.3 modern atomic theory what produces the different colors in a fireworks display? some compounds...

4.3 Modern Atomic Theory

What produces the different colors in a fireworks display?•Some compounds produce specific colors of light when they are heated.

Examples:•Compounds containing strontium produce red light. •Compounds containing barium produce green light.


Bohr’s atomic model (1913): •Nucleus surrounded by a large volume of space

– (like Rutherford's model of 1911)

•Focused on the arrangement of electrons.– Electrons move with constant speed in fixed orbits

around the nucleus, like planets around a sun. – Each electron in an atom has a specific amount of

energy.

Bohr’s Model of the Atom


Atom gains or loses energy

Electron(s) moves between energy levels


Electron

Nucleus

Bohr Model

Electrons gain or lose energy when they move between fixed energy levels

Electron

Nucleus

Bohr Model

Electrons gain or lose energy when they move between fixed energy levels


Analogy: electron energy levels like a staircase -• The landing at the bottom of the staircase is the lowest

level.• Each step up represents a higher energy level. • The step height represents an energy difference between

levels. • You can only move in whole numbers – you can’t go up

half a step



Electron can:•Move up or down (i.e. gain or lose energy)•Move one or more energy levels at a time

– if it gains or loses the right amount of energy.

•Size of jump amount of energy change (gained or lost)

Each element has unique set of energy levels



Light is a form of energy It can be observed/measured. It can be emitted or absorbed by electrons

Absorb energy move to a higher energy level

Release energy move to a lower energy level



The movement of electrons between energy levels explains the light you see when fireworks explode.

• Heat causes some electrons to move to higher energy levels.

• When those electrons move back to lower energy levels, they release energy.

• Some of that energy is released as visible light. • Different elements emit different colors of light because

each element has its own unique set of energy levels.



Describes possible locations and energy levels of electrons around the nucleus.

Electron cloud:– Visual model– Most likely locations for electrons

Electron Cloud Model


Electron cloud model replaced Bohr's model of electrons moving in predictable paths.


The nucleus contains protons and neutrons

The electron cloud is a visual model of the probable locations of electrons in an atom. The probability of finding an electron is higher in the denser regions of the cloud.

Electron Cloud Models


Bohr’s model was improved

[scientists made further discoveries]– Electron “orbits” do have specific energy levels.

[Bohr got this part right]– Electrons do not move like planets in a solar system.

[Bohr got this part wrong]

Electron cloud model:

Visual model based on probability (statistical equations)



When propeller stopped, you see location of blades.

When propeller is moving, you see only a blur.– Blur is similar to drawing of electron cloud.

Electron Cloud Model - Analogy:


Orbital: – Region of space around the nucleus where

an electron is likely to be found.

Electron cloud: – All the orbitals in an atom.

Electron cloud = good approximation of how electrons behave in their orbitals.



Imagine a map of our school. •Mark your exact location with a dot once every 10 minutes for one week. •Dots on map are model of your “orbital”

– Shows most likely locations to find you.• Places visited most highest concentration of dots. • Places visited least lowest concentration of dots.

•Everybody’s dots together = school’s “electron cloud”

Electron Cloud Model - Analogy


The level in which an electron has the least energy—the lowest energy level—has only one orbital. Higher energy levels have more than one orbital.



Ground state:– All the electrons in an atom have the lowest

possible energies– Most stable electron configuration

Electron Configuration:


Lithium atom (Atomic # = 3) has three electrons.

Ground state: – Two electrons in lowest energy orbital;– Third electron in next (second) energy level.

Excited state:•Atom absorbs energy Electron moves to higher orbital, leaving “hole” in lower orbital•Excited state less stable than ground state, so•Electron in higher energy level loses energy falls into “hole”•Atom returns to the ground state.


The ground state of a person is on the floor.

A gymnast on a balance beam is like an atom in an excited state—not very stable. When she dismounts, the gymnast will return to a lower, more stable energy level.

Electron Configurations


Assessment Questions

1. According to Bohr’s model of the atom, which of the following can happen when an atom gains energy? a. An atom returns to its ground state.

b. A neutron can be changed into a proton.

c. A proton can move to a higher energy level.

d. An electron can move to a higher energy level.



2. How does the modern atomic theory describe the location of electrons in an atom?a. Electrons move randomly in space around the nucleus.b. Electrons can be described as a cloud based on

probable locations.c. Electrons orbit the nucleus in the same way that planets

orbit the sun.d. Electrons move in a spiral pattern if increasing distance

from the nucleus.



3. What is meant when an atom is said to be in its ground state? a. There is no net charge on the atom.

b. The number of protons equals the number of neutrons.

c. The atom’s electrons all have the lowest possible energies.

d. It is the isotope with the least number of neutrons.

4.3 modern atomic theory what produces the different colors in a fireworks display? some compounds...

Documents

energy electrons

electron energy levels

energy levels of electrons

higher energy levels

specific energy levels

form of energy

energy change

energy difference