unit 10 electrons in atoms. light as energy wave theory of light: james clerk maxwell (mid-1800s)...
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Wave DiagramTRANSCRIPT
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Unit 10
Electrons in Atoms
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Light as Energy
Wave Theory of Light: James Clerk Maxwell (mid-1800s) Electromagnetic radiation – a form of energy
that exhibits wavelike behavior as it travels through space
Visible light – a form of electromagnetic radiation that is perceivable to human beings and is seen in the colors of the rainbow (ROY G. BIV)
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Wave Diagram
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Wave Vocab: Crest – the top of a wave Trough – the bottom of a wave Wavelength – the distance from crest to crest or trough
to trough in a wave Frequency – the number of wavelengths that pass a
given point in a set amount of time Origin – the center/start or midpoint of a wave Amplitude – the distance from the origin to the crest or
the trough of a wave Speed of light – c – the rate at which all forms of
electromagnetic radiation travel through a vacuum = 3.00 x108 m/s
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Wave Theory of Light
Light as a Wave
A. Wavelength ( “lambda”) Distance between corresponding parts
on a wave (m)
B. Frequency ( “nu”) # of peaks that pass a given point
each second (cycles/sec Hz)
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Wave Theory of Light
B. Frequency ( “nu”) # of peaks that pass a given point
each second (cycles/sec Hz)
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Comparing Waves
High frequency = Short Wavelength Low frequency = Long Wavelength
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Wave Theory of Light
C. Wave Velocity (speed) = c Distance that a peak travels in a unit of time
(generally one second) Units: m/s
Speed of light = c = 3.00 x 108 m/s
D. Amplitude The height of a wave (measured in meters)
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Wave Equation:
Wavelength = speed of light / frequency
Wavelength and frequency are inversely proportional
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c = Example #1: The wavelength of the radiation which produces the yellow color of sodium vapor light is 5.89 x 10-7 m. What is the frequency of this radiation?
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c = Example #2: What is the wavelength of a microwave having a frequency of 3.44 x 109 Hz?
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Visible Light Consists of all the
colors of the rainbow ROY G. BIV Can be separated by a
prism
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Electromagnetic Spectrum All forms of light both visible and non-visible Ranges from radio waves to gamma rays
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Particle Theory of Light
First studied by Max Planck around 1900
Came about to try and explain the parts of light behavior that didn’t fit Maxwell’s wave theory
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Evidence for Particle TheoryPhotoelectric Effect:
- Light is emitted in small discrete amounts called “photons”
Photon: a single “particle” of light
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Quantum Concept
When an electron absorbs a photon of energy, the electron jumps from the ground state to its excited state
Ground state – lowest energy level an electron occupies
Excited state – temporary state when an e- is at a higher energy level
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Quantum Concept
quantum: the minimum amount of energy that can be gained or lost by an atom
Photon: a single “particle” of light Planck’s Constant = h = 6.626 x 10-34 J.s
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Comparing Energy and Frequency
Energy and frequency are directly proportional They both increase or decrease together
SO…. Energy and wavelength are inversely proportional
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E = h Example #1: What is the energy of a photon from the violet portion of the rainbow if it has a frequency of 7.23 x 1014 s-1?
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E = h Example #2: What is the energy of a photon from the green portion of the rainbow if it has a wavelength of 4.90 x 10-7 m?
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Dual Theory of Light
Albert Einstein – 1905
Light is both a wave and a particle!!!!
Demonstrations: Light bends
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Atomic Emission Spectra
The set of frequencies of light that are emitted when atoms of a gas are energized with electricity
Each atom has its own distinct AES Intensive Property Hydrogen Atom Spectrum
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Quantum Theory and the Atom
Neils Bohr extended his “Planetary Model” of the atom to address light
Studied the Hydrogen atom and how different light was emitted when the atoms electrons moved between energy levels
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Hydrogen’s Line Spectrum Bohr stated that electrons exist in set
pathways called energy levels
Energy levels are represented by the letter n
So, the first energy level is n = 1,etc.
The first energy level is closest to the nucleus, etc.
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Hydrogen’s Line Spectrum
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What determines the color of light?
Bohr concluded that the color of light depends on the fall of the electron from the excited state to the ground state
Balmer, Lyman and Paschen each studied specific energy levels and the light emitted when those energy levels are involved
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Heisenberg’s Uncertainty Principle
Both the velocity and position of an electron cannot be determined simultaneously You can determine either the speed OR the
location at a given time but not both
Since an electron is so small and the methods for determining position and velocity can’t be done simultaneously, doing one creates error in the other
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Quantum Mechanical Model of the Atom Erwin Schrodinger – 1926
Explained electron movement as wavelike rather than set as in the Bohr model (remember from Chapter 4)
Gave electrons regional locations called orbitals and based them on probability calculations
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Schrodinger’s Atom
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Electron Arrangement in the Electron Cloud Electron locations are designated by a
system of letters and numbers called “quantum numbers”
These numbers give you the location of an electron ranging from the most general location to the most specific location
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1. Principle Energy Level (n)
The most general of the information Whole numbers from 1,2,3,4, etc. Remember 1 is closest to the nucleus, 2 next,
etc. The principal energy level is the same as
the row number of the periodic table Example:
Valence electrons in calcium reside in the n = 4 energy level
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2. Sublevel One step more specific than the energy level Letters s, p, d, and f
Energy level 1 has only sublevel s Energy level 2 has s and p Energy level 3 has s, p, and d Energy level 4-7 have s, p, d, and f
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3. Orbital The most specific piece of information is about the
number and location of the electrons within the sublevel
Can be represented by an exponent or arrows depending on the method of notation The s sublevel has 1 orbital The p sublevel has 3 orbitals The d sublevel has 5 orbitals The f sublevel has 7 orbitals
Orbital - region within a sublevel where an e- can be found (homes for e-)
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Rules for how the electrons fill into the electron cloud:
Aufbau Principle: electrons fill from the lowest energy level to the highest (they don’t skip around)
Pauli Exclusion Principle: each orbital can hold a maximum of 2 electrons at a time (they must have opposite spins)
Hund’s Rule: orbitals of equal energy in a sublevel must all have 1 electron before the electrons start pairing up
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Electron Configurations
The system of numbers and letters that designates the location of the electrons
3 major methods: Full electron configurations Abbreviated/Noble Gas configurations Orbital diagram configurations
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Full Electron Configuration
Example Notation: 1s2 2s1 (Pronounced “one-s-two, two-s-one”)
A. What does the coefficient mean?Principle energy level
B. What does the letter mean?Type of orbital (sublevel)
C. What does the exponent mean?# of electrons in that orbital
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Full Electron Configuration1. Determine the total number of electrons the atom
has (for neutral atoms it is equal to the atomic number for the element).
Example: F atomic # = # of p+ = # of e- =
2. Fill orbitals in order of increasing energy.
3. Make sure the total number of electrons in the electron configuration equals the atomic number.
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Aufbau Chart (Order of Energy Levels)
When writing electron configurations:
d sublevels are n – 1 from the row they appear in
f sublevels are n – 2 from the row they appear in
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Full Electron Configuration PracticeWrite electron configurations for the following elements:
He:
P:
Rh:
Br:
Ca:
Ce:
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Abbreviated/Noble Gas Configuration
i. Where are the noble gases on the periodic table?
ii. Why are the noble gases special?
iii. How can we use noble gases to shorten regular electron configurations?
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Abbreviated/Noble Gas Configuration
Example: Barium
1.Look at the periodic table and find the noble gas in the row above where the element is.
2.Start the configuration with the symbol for that noble gas in brackets, followed by the rest of the electron configuration.
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Abbreviated/Noble Gas Configuration
Practice! Write Noble Gas Configurations for the following elements:
Rubidium:
Bismuth:
Arsenic:
Zirconium:
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Quantum Numbers: Hotel Analogy
Recall there were three values we talked about which indicated the location of an electron: Principal energy level: n
(row of the periodic table) Sublevel: s, p, d, f Orbital: each orbital can hold up to 2 e-
These two electrons form an “electron pair” which must have opposite spin (point in opposite directions)
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Quantum Numbers: Hotel Analogy Principal energy level: n (= row of periodic table) Sublevel: s, p, d, f Orbital: each orbital can hold 2 e-
Think of these in terms of a hotel: Floor – most general; hotels have many floors
(like the energy level in an atom) Wing – each floor has a few wings or corridors
(like the sublevel in an atom) Room – most specific location
(like the orbital in an atom)
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Orbital Diagrams
Orbital diagrams use boxes (sometimes circles) to represent energy levels and orbitals. Arrows
are used to represent the electrons.
= orbital
sublevels
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Orbital DiagramsDon’t forget - orbitals have a capacity of two electrons!! Two electrons in the same orbital must have opposite
spin so draw the arrows pointing in opposite directions.
Example: oxygen 1s22s22p4
1s
2s
2p
Incr
easi
ng E
nerg
y
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Drawing Orbital Diagrams1. First, determine the electron configuration for the element. 2. Next draw boxes for each of the orbitals present in the electron
configuration. Boxes should be drawn in order of increasing energy (see the
Aufbau chart).3. Arrows are drawn in the boxes starting from the lowest energy sublevel
and working up. This is known as the Aufbau principle. Add electrons one at a time to each orbital in a sublevel before
pairing them up (Hund’s rule) The first arrow in an orbital should point up; the second arrow should
point down (Pauli exclusion principle)4. Double check your work to make sure the number of arrows in your
diagram is equal to the total number of electrons in the atom. # of electrons = atomic number for an atom
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Drawing Orbital Diagrams
Practice! Draw orbital diagrams for the following elements:
Sulfur:
Nickel:
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Drawing Orbital Diagrams
(Answers)
Sulfur:
Nickel:
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Orbital Diagrams: Valence e- & Ionic ChargeIf the orbital diagram for sulfur looks like this:
How many unpaired electrons are in the valence shell of a sulfur atom?
Does this make sense regarding the charge on a sulfur ion?