Consider electromagnetic waves propagating in air. (a) Determine the frequency of a wave with a wavelength of (i) 5.0 km, (ii) 5.0 µm, (iii) 5.0 nm. (b) What is the wavelength (in meters and nanometers) of (i) gamma rays of frequency 6.50 x 1021 Hz and (ii) an AM station radio wave of frequency 590 kHz?
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- hw 2 Laser beams are sometimes used to burn away cancerous tissue. What is the intensity, in watts per square meter, of a laser beam that is 90.0% absorbed by a 2.1-mm diameter spot of cancerous tissue and must deposit 515 J of energy to it in a time period of 4.05 s?A police officer's radar gun emits radio waves at a frequency of 10.9 GHz. What is the difference in the frequencies reflected back to the radar gun by a car traveling at the 55 mph speed limit and a car travelling 3 mph faster? Assume that the cars are both headed directly away from the stationary officer.Find the wavelengths of electromagnetic waves with the following frequencies. (Assume the waves are traveling in a vacuum.) (a) 9.00 ✕ 1019 Hz (Enter your answer in pm.) (b) 6.50 ✕ 109 Hz (Enter your answer in cm.)
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