Chapter 5

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Electromagnetic waves

According to the wave model, light consists of _________________ _______________.

Classical mechanics

Adequately describes the motions of bodies much larger than atoms

Pauli exclusion principal

An atomic orbital may describe at most two electrons

Yes

Can the range of energy levels of a principle energy level overlap the energy levels of another?

No

Can two elements have the same emissions spectrum?

Quantum mechanical model

Comes from the mathmatical solutions to the Schrodinger equations

Sunlight

Consists of light with a continuous range of wave lengths and frequencies

Rutherford's atomic model

Could not explain the chemical properties of elements

Each complete wave cycle starts at zero, increases to its highest value, passes through zero to reach its lowest value and returns to zero to the crest

Describe the property of a wave

Probability

Describes how likely it is to find the electron in a particular location

Quantum mechanics

Describes the motions of subatomic particles and atoms as waves

Quantum mechanical model

Determines the allowed energies an electron can have and how likely it is to find the electron in varius locations around the nucleus

Earnest Rutherford

Discovered the atomic nucleus and used existing ideas about the atom and proposed an atomic model in which the electrons move around the nucleus

Waves

Does light consist of waves or particles?

No

Does the heist berg uncertainty principle apply to large scale items?

1911

Earnest Rutherford finds small positively charged nucleus

Hund's rule

Electrons occupy orbitals of the same energy in a way that makes the number of electrons with the same spin direction as large as possible

Aufbau principle

Electrons occupy the orbitals of lowest energy first

1926

Erwin schrodinger developed mathematical equation to discribe the motion of electrons in atoms (leads to electron cloud model)

copper- 4s1 instead of 4s2 at the end chromium- 4s1 instead of 4s2 at the end

Exceptions to electron configuration

1904

Hantaro Nagaoka suggestion of nucleus and structured electron path

E=hv

How to find energy using planks constant and frequency

Fixed energy

In Bohr's model, what did each possible electron orbit have?

Lowest possible energy level

In most natural phenomena, change proceeds to the ___________________.

Electromagnetic waves

Includes radio waves, radar, microwaves, infrared, ultraviolet, x-rays, gamma rays

up ad down arrows

Indicates an electron and its direction of spin; used to write paired electrons

Paschen series

Infrared

Nucleus and electrons

Interact with each other to make the most stable atomic arrangement

No

Is the amount of energy an electron gains or loses in an atom always the same?

1897

J.J. Thomson's plum pudding atom

1932

Jams Chadwick confirms the existence of neutrons

1803

John Daltons atom

Photons

Light quanta

1923

Louis de Broglie proposed electrons have wavelike properties

1913

Niels Bohr electron orbit model

6.626x10 -34 js

Planks constant

Wavelength

Represented by lambda; the distance between the crests

Frequency

Represented by the v; the number of wave cycles to pass a given point per unit of time; labled Hz or s-1

c= 2.998 x 10^8 m/s

Speed of light

Heisenburg uncertainty principle

States that it is impossible to know exactly both the velocityand the position of a particle at the same time

Propeller blade

The QM model description of how the electron moves around the nucleus is simular to a __________________ ________________.

A quantum

The amount of energy required to move an electron from one energy level to another (up of down)

frequency

The color emitted for each frequency found in sunlight depends on its....

Quantized

The energy of an electron is said to be __________________.

Atomic emissions spectrum

The frequencies of light emitted by an element separate into discrete lines

Closer

The higher the energy level the ______________ the orbitals are to one another

Bohrs model

The ideas and theories of quantum mechanics originates from the ideas found in which atomic model?

the energy change of the electron

The light emitted by an electron moving from a higher to a lower energy level has a frequency directly proportional to ...

Farther

The lower the energy level the ______________ the orbitals are from one another

Of equal energy

The orbitals for any sub level of a principle energy level are always ...

Ground state

The principal quantum number is 1

Inversely proportional

The wavelength and frequency of light are __________ to each other

Electron configurations

The ways in which electrons are arranged in various orbitals around the nuclei of atoms

1. Aufbau principle 2. Pauli exlusion Principle 3. Hund's rule

Three rules of electron configuration

Opposite

To occupy the same orbital, electrons must have ______________ spins.

Isaac Newton (1642-1727)

Tried to explain what was known about the behavior of light and proposed that light consisted of waves

a photon

Type of energy that forms light when the electron drops back to a ground state

Lyman series

Ultraviolet

Quantum leap

Used to describe the electrons abrupt jump from one energy level to the next

Balmer Series

Visible

Amplitude

Waves height from zero to the crest

1. like the Bohr model, the QM model restricts the energy of electrons to certain values 2. Unlike the Bohr model, the QM model does not involve the exact path the electron takes around the nucleus

What are some similarities and differences between the Bohr model and quantum mechanical model

1. The Rutherford planetary model 2. The Bohr model

What are the two atomic models that are based on describing paths of moving electrons

Atomic emissions spectra

What can be used to identify an element?

The rungs of a ladder - The lowest rung represents the lowest energy levels - The highest rung represetns the highest energy levels - Sometimes the rungs/ orbits are not evenly spaced and get smaller as energy increases. In these cases, it requires less energy to move them the closer the orbits are

What can the energy levels of an atom be compared to?

Subtle electron-electron interactions in orbitals with very simular energies

What causes exceptions in the aufbau principle?

Red

What color has the longest wavelength and lowest frequency?

How the energy of an atom changes when it absorbs or emits light

What did Bohr add to Rutherford's atomic model to improve it?

Why the emission spectrum of hydrogen consists of specific frequencies of light and it predicted the specific values of these frequencies

What did Bohr model explain concerning the hydrogen atom?

An electron is found only in specific circular paths, or orbits, around the nuclues

What did Bohr propose about electrons reguarding rutherfords model?

Why objects change color when heated

What does Rutherford's model fail to explain (specifically)

One exact frequency of light emitted by the atom

What does each discrete line in an emission spectrum corespond to?

It energizes the electrons of the atoms of the gas and causes them to emit light

What does passing an electric current through a gas in a neon tube do?

Electrons move into a higher energy level

What happens when atoms absorb energy?

The different frequencies separate in to a spectrum of colors

What happens when sunlight is passed through a prism?

They loose energy by emitting light

What happens when the electrons move back energy levels?

It still failed in many ways to explain the energies absorbed and emitted by atoms with more than one electron

What was wrong with the Bohr model of the atom?

Sometimes filled energy sub levels are more stable than partially filled sublevels

Why are some of the chromium and copper sublevels only half filled?

s

lowest sub level