Electrons and Light! Unit 4A.

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Presentation transcript:

Electrons and Light! Unit 4A

Electron Configuration Review! Write the Noble Gas Configurations for these elements! Fe Rb Cl

Noble Gas Configurations & Valence Electrons Fe – [Ar]4s23d6 Rb – [Kr]5s1 Cl – [Ne]3s23p5 Valence e- - electrons in the highest orbital or energy level.

Valence Electrons Fe – [Ar]4s23d6 {2 valence e-} Rb – [Kr]5s1 {1 valence e-} Cl – [Ne]3s23p5 {7 valence e-} These are the electrons that are involved in bonding and chemical reactions!!!!!!!

Valence Electrons and the Periodic Table

What do e- have to do with light? When you add energy to an element (perhaps by heating it up), the valence e- get “excited”. In other words they jump up to a higher energy level or orbital. BUT… they are unstable up there. So they release that added energy in the form of colored light! Huh?

So what exactly is light? Light is a wave of energy, a small part of the electromagnetic spectrum!

Light as a Wave Light moves in wave from the light source to you eye or other detector! Waves have several characteristics!

Wave Characteristics c = λ× ν c = speed of light = 3.00 × 108 m/s λ = wavlength ν = frequency c = λ× ν

Light can also act as particles, we call them PHOTONS!!!!!! Moving along those waves, there are little packets of energy called photons. Photons have specific amounts of energy as determined by the frequency of the light. E = h × ν E = hc λ The higher the frequency of the light, the more energy the light has.

So how does light tie into excited electrons? When you add energy to an element, it’s valence e- absorb that packet of energy & become unstable. In order to return to stability (lower their energy) they “spit out” that energy in the form of a photon that has a frequency in the visible light part of the electromagnetic spectrum that we can see.