Quantum Theory

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Heisenberg's uncertainty principle

classical particles have well defined position and momentum on atomic scale, position and momentum of a particle cannot be determined with great precision because of uncertainty

Energies of ejected electrons

depend on frequency of light

Long radio waves

emitted by antennas

hv=

energy of photons

KE

escaping electrons

Shortest waves

gamma rays, produced by the change in the nucleus of an atom

Free electrons

have a higher energy then elections in an atom

Neils Bohr

he used quantization to predict the line spectrum of a hydrogen atom

Bohr's model

heisenberg's principle proves _______'s modle wrong

Electrons escaping will have kinetic energy

if light has energy exceeding (weird circle thing..)

Shorter waves

in the visible light range and are caused by the motions electron change in the atom

Wave particle duality

is important when wave lengths are comparable to atomic/ nuclear dimensions

Energy emitted light

is in discreet quantities called quanta (photon) the photon reflects the energy released by the vibrating atoms

Standing waves

is like a guitar string nodes, like points on a strong zero amplitude ends are fixed

the number of electrons ejected

is proportional to the intensity of light

wave function

it has positive and negative values and is also part of atomic orbitals

Photoelectric effect

light contains photons which will strike the surface of a metal in an evacuated surface and the electron in the metal will absorb the photon

Definition of quantum theory

light energy that can vibrate at different levels but not in between them.

Einstein

light has particle and wave properties (dual)

de Broglie

said " if light waves can behave like a stream of particles maybe particles possess wave properties

Wave speed

speed of light, constant "c" 2.998x10^8

Isaac Newton

sunlight can be broken down into various colours to form a continuous spectrum

Multi electron atoms

the bohr model falls apart due to these, because they have more then one electron, and that makes the spectra more complex and not easily explained

The more energetic the photon

the greater the kinetic energy of ejected electrons

the higher the value of 'n' (1,2,3)

the increase in number of nodes the shorter the wavelength the higher the frequency the higher the energy of standing waves

Amplitude

the maximum displacement with respect to the undistributed state

Electromagnetic radiation is

the transmission and emission of energy in form of electromagnetic waves

the view atoms

view as travelling waves view as a standing waves when an electron is bound to the nucleus

Measuring Large objects

wave duality then has little meaning because the wavelengths would be much too small to measure

Energy is transmitted when...

wave has vibrating disturbances

Gaseous atoms of a pure element

when excited create electric discharge or elevation in temperature

Schrodinger Equation

describes the behaviour of energies of subatomic particles any particle with wave-like properties should be described as a wave incorporates both particle behavior, in terms of mass, and wave function

Bohr's atomic model

discreet energy levels which occupy certain discreet orbits, you are able to find the position and momentum of an electron at any point according to him.

Wavelength

distance between successive peaks of intensity of oscillating magnetic field at any point

Classical Physics

Cannot explain the force that holds atoms together nor the molecular or atomic levels

angular momentum

a property of an electron having only certain allowed values (discreet set of allowed orbitals)

lyman series

a series that has n=1 and is in the ultra violet spectrum

balmer series

a series that has n=2, easiest because the number of lines fall in the visible range of the spectrum

paschen series

a series that has n=3 and is in the infrared spectrum

brackett series

a series that has n=4

Radiation is emitted ...

at a specific wave length

Frequency

number of complete oscillations that pass a given point in the span of one second

Wave duality

photons/ bundles of energy transfer energy like particles


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