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Warm-Up What is the difference between the Bohr’s Model of the Atom and the Quantum Model of the atom. What wavelength is associated with an electron.

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Presentation on theme: "Warm-Up What is the difference between the Bohr’s Model of the Atom and the Quantum Model of the atom. What wavelength is associated with an electron."— Presentation transcript:

1 Warm-Up What is the difference between the Bohr’s Model of the Atom and the Quantum Model of the atom. What wavelength is associated with an electron that falls from n=3to n=2? What color of the visible light spectrum would that be associated with?

2 Part of the electromagnetic spectrum

3 Arranged from longest to shortest wavelength

4 How do you convert from nanometers to meters?
So 656 nm is how many meters? What color of light is this?

5 - 2.179×10⁻¹⁸ = Rydberg constant

6 Calculating the energy of H atom
Calculate the energy difference between E3 and E2 in the hydrogen atom. Calculating the energy of H atom

7 Calculate the energy difference between E4 and E2 in the hydrogen atom.

8 proposed that electrons have wave properties
1924 – Louis de Broglie proposed that electrons have wave properties

9

10

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14 A particle of matter has a wavelength!
1924 – Louis de Broglie Any particle of mass m moving with a velocity v will have a de Broglie wavelength given by the following equation:  = h mv A particle of matter has a wavelength!

15 Quantum Theory – Max plank -1900
Energy of a single quantum of energy (Photon) = where E = energy (in Joules) h = Plank’s constant 6.63 x 1034 J  s  = frequency

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