Name: Date: ______ Electromagnetic Radiation Worksheet E = hv
Transcription
Name: Date: ______ Electromagnetic Radiation Worksheet E = hv
Name: _________________ Date: _______ Electromagnetic Radiation Worksheet E = hv This formula shows the relationship between the energy (E, measured in joules) and frequency (v, measured in 1/s or s-1) of light. Energy is directly proportional to frequency. h is called Planck’s Constant, and equals 6.626*10-34J*s. c = λv This formula shows the relationship between the frequency (v) and the wavelength (λ, pronounced lambda) of light. Frequency is inversely proportional to wavelength. c is the speed of light, and equals 3.00*108m/s. 1. What is the energy of a photon with a frequency of 7.23*1014s-1 2. If a photon carries 1.2*10-19J of energy, what is its frequency? 3. What type of light is the photon in question 2? (Use the electromagnetic spectrum on the back.) 4. What is the wavelength of electromagnetic radiation with a frequency of 4.6*1014s-1? 5. What color is the light in question 4? 6. Use the emission model for hydrogen on the back of this sheet to fill in the following table with the wavelength of light (in nanometers) that would be released by an electron falling from the initial level to the final level. Final Energy Level 3 Initial Energy Level 2 1 6 x 5 x 4 3 x 2 x x Bohr Model for Hydrogen Atom (measurement in nanometers) n n n n n = = = = = 6 5 4 3 2 n=1 UV = Ultraviolet IR = Infrared 1282 656 434 1094 1875 IR 486 410 Visible 122 97 103 UV Electromagnetic Spectrum (measurement in meters) 104 103 102 101 100 10–1 10–2 10–3 10–4 10–5 10–6 10–7 10–8 10–9 10–1010–1110–12 10–13 X rays Microwaves Infrared Ultraviolet Gamma rays Radio waves Shorter Wavelength Longer Wavelength Visible Light Red Orange Yellow Green Blue Violet 7.0 ! 10 –7 6.5 ! 10 –7 5.9 ! 10 –7 5.7 ! 10–7 4.9 ! 10 –7 4.2 ! 10 –7 4.0 ! 10–7 NCDPI Reference Tables for Chemistry (2012) Page 8