Paper Chromatography

The Hydrogen Atom Spectrum Evan J. Collins C. N. Peck June 16, 2009 INTRODUCTION MATERIALS _Emission Spectra an the electronic Structure of Atoms_ Spectroscope Black Ink Pen Graphite pencil Notebook Mercury Spectrum Hydrogen Spectrum PROCEDURE calibration of the Spectroscope victimisation the spectroscope the four most visible lines on the scale were measured. Violet, blue, green, and yellow were in all visible. With the ink pen the measurements were recorded. A known wavelength (nm) vs. measured lines (cm) graphical record was then drawn from the measurements.Observation and Measurements of the Hydrogen Spectrum victimization the calibrated spectroscope the scale position of the observable lines of the hydrogen emission spectrum were measured. Red, turquoise, violet, and purple were all visible. Using the measurements and the calibration graph the wavelength of the lines were determined. The relative error was calculated development Accepted Value Values of wavelength for the hy drogen atom spectrum were converted to kJ/mol. Using a form of the Rydberg equation, the Rydberg constant was calculated for apiece of the lines measured.This constant was used to then calculate percentage error. Data Calibration of the Spectroscope Observations and Measurements of the Hydrogen Spectrum CALCULATIONS (Convert wavelength values to corresponding energy in kJ/mol) 680 x 10-9 2. 92 x 10-19 J x (6. 022 x 1023) / (1000 J) = 176 kJ/mol (Calculate the value of the Rydberg constant) (1/680)/(. 25-. 30) = . 00147059/(. 25000-. 11111)= 0. 0105042 x 10-7 = Rh= 105,040 cm -1 (Calculate Percentage Error) 105040 109678 X 100 = 4. 23% Error 109678 news/CONCLUSION