Lecture 16: Bohr Model of the Atom Reading: Zumdahl 12.3, 12.4 Outline –Emission spectrum of atomic hydrogen. –The Bohr model. –Extension to higher atomic.
6 Spectral Lines Celestial Fingerprinting. 6 Goals From light we learn about –Composition –Motion.
Chemical Ideas 6.7 Where does colour come from?. 25 questions to see what you’ve remembered.
Lecture 17: Bohr Model of the Atom Reading: Zumdahl 12.3, 12.4 Outline –Emission spectrum of atomic hydrogen. –The Bohr model. –Extension to higher atomic.
7 Spectral Lines Celestial Fingerprinting. 7 Goals From light we learn about –Composition –Motion.
ELECTRO MAGNETIC SPECTRUM The electromagnetic spectrum extends from wavelengths of many meters to wavelengths of submicroscopic size. Visible light has.
Emission Spectrocopy,Zeeman Effect_2
ELECTRONS IN THE ATOM UNIT 4. OBJECTIVES 1.Explain how atomic emission spectra can be used to identify elements 2.Describe Bohr’s model of the atom. 3.Describe.
Foundations Models of the Atom and the Foundations for the Periodic Chart.
Chemistry 2
Optical sensing in Precision Farming (Techniques) Aerial remote sensing Film (visible/NIR/IR) and digitization Direct Digital recording Field machine based.
Plan for Fri, 31 Oct 08 Lecture –Emission spectrum of atomic hydrogen (7.3) –The Bohr model of hydrogen (7.4) –Quantum mechanical model (7.5) Quiz 5.
