Chapter 13 - Quantum Physics Flashcards
How can the energy of a Wave be found?
E = hf = hc/λ
where h: Planck Constant, f: frequency, c: speed of light, λ: wavelength
Define an Electron Volt?
1 Electron Volt is defined as the gain in kinetic energy by an electron when it is accelerated through a potential difference of 1 volt.
1 eV = 1/2 mv²
How do you convert from Electron Volts to Joules?
1 eV = 1.6x10⁻¹⁹ J
How can Planck’s Constant be experimentally calculated?
- Find the Threshold Voltage of different coloured LEDs.
- Plot a graph of Threshold Voltage against the inverse of the wavelength of light, with a linear line of best fit.
- The gradient is equal to hc/e
- Multiply the gradient by 1.6x10⁻¹⁹, then divide by 3x10⁸.
- This gives us Planck’s Constant.
What is the Photoelectric effect?
When light is shone on a surface, if the energy is high enough, photoelectrons will be release.
If the Threshold Frequency is met, then the Work Function is met.
Intensity ∝ No. Electrons Emitted
Why couldn’t the Photoelectric Effect be explain by Wave Theory?
- The energy needed to liberate electron should be able to met progressive if light was a wave, which is can’t.
- intensity should increase the kinetic energy of liberated electron, not the rate of electrons are liberated.
What is the Work Function?
The minimum energy require to liberate electrons.
Work Function = Fundamental Frequency x Planck’s Constant
ɸ = fh
What happens if light with a higher frequency than the Threshold Frequency is used?
The extra energy is converted to Kinetic Energy.
hf = ɸ + Ek
What was De Broglie’s Wave Particle Duality Theory?
He stated “if wave-like light showed particle properties, particles like electrons should be expected to show wave-like properties”
What is the De Broglie Equation?
λ = h / p λ = h / mv
