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Electromagnetic Spectrum

Wave Energy & Quanta

Bohr Model

Quantum Model

Electron Configurations

100

What is the region of the electromagnetic spectrum that we can see called?

Visible Light

100

What does “h” stand for in the equation E = hf (name it and state the number)

Planck's constant

6.626 x 10^-34

100

Is the Bohr model our most current model of the atom? Why or why not?

No, only worked for Hydrogen atom (electrons don't travel in specific orbits)

100

What is meant by “atomic orbitals?”

Regions where electrons are likely to be found (NOT specific rings)

100

Draw the lines & arrows notation for magnesium

1s<>

2s <>

2p<><><>

3s<>

200

What is the relationship between wavelength and frequency for electromagnetic waves?

Inverse relationship (one goes up the other goes down)

200

What is a photon?

Particle of light

200

If an electron gains energy, does it move closer to the nucleus or further from it?

Further from nucleus

200

Compare the Bohr model and quantum model of the atom.

Bohr model = orbits

Quantum model = orbitals

200

DOUBLE JEOPARDY (You can wager up to however many points you currently have).

Don't pair up electrons in orbitals of equal energy until all have at least one electron

300

Which is lower energy: radio waves or visible light?

Radio waves

300

Calculate the energy of a photon with a frequency of 6 x 10¹⁴ Hz.

E = 3.9756 x 10 ^-19 J

300

In the Bohr model, electrons move in circular _______.

Orbits

300

Who developed an equation in 1926 to help describe the location of electrons in more complex atoms?

Schrodinger

300

What is the maximum number of electrons that can fit in the 3rd energy level?

400

Name 5 key regions of the electromagnetic spectrum.

Radio, Microwave, IR, Visible Light, UV, X-rays, Gamma rays

400

The photoelectric effect provides evidence that light can act as a ______.

particle

400

What does it mean that electrons are quantized?

Exist as specific energy levels (not continuous)

400

De Broglie proposed that electrons should be considered as _________.

Waves

400

Write the electron configuration for sulfur

1s²2s²2p⁶3s²3p⁵

500

How does the wavelength of electromagnetic radiation relate to energy?

Shorter wavelength = higher energy

500

Solve for the energy of a wave with a wavelength of 500 nm.

3.98 x 10^-19

500

Discuss how the emission-line spectrum relates to Bohr’s model.

Lines shown on spectra are from electron jumps of electrons (electrons at set energies in Bohr model)

500

Describe the Heisenberg Uncertainty Principle.

Can't know BOTH the location and velocity of an electron at any given time.

500

Write the NOBLE GAS shortcut electron configuration for Iodine.

[Kr]5s²4d¹⁰5p⁵