Calculate the wavelength of the electromagentic waves with the given frequencies, and determine the type of electromagnetic radiation for each combination.
frequency: 4.38×1014 Hz
wavelength:
mtype frequency: 4.14×1020 Hz
wavelength:
mtype frequency: 3.24×1012 Hz
wavelength:
mtype
Calculate the wavelength of the electromagentic waves with the given frequencies, and determine the type of...
22) — 22) Using the figure below, categorize electromagnetic radiation with a wavelength of 1.0 x 10-3 m. Wavelength 10-3 10-1 10 103 105 107 109 1011 1013 (nm) Frequency 1020 1018 1016 1014 1012 1010 108 106 104 X rays Ultra- viloet Visible Infrared Microwave Radio waves Gamma Type of rays radiation A) X rays B) Ultraviolet C) Infrared D) Gamma rays E) Microwave
Electromagnetic waves are traveling in the vacuum of space. Calculate the wavelengths of these electromagnetic waves with the following frequencies. (Enter the first wavelength in pm and the second wavelength in cm.) (a) 8.00 ✕ 1019 Hz ________pm (a) 7.50 ✕ 109 Hz ______cm
Assume the following waves are propagating in air. 1. Calculate the wavelength λ1 for gamma rays of frequency f1 = 5.50×1021 Hz . Express your answer in meters. 2. Calculate the wavelength λ2 for visible light of frequency f2 = 6.45×1014 Hz . Express your answer in meters.
3. The speed of light in vacuum is approximately 3 × 108 m/s. Find the wavelength of red light having a frequency of 5 x 1014 Hz. Compare this with the wavelength of a 60-Hz electromagnetic wave. 4. A youngster in a boat on a lake watches waves that seem to be an endless succession of identical crests passing with a half-second interval between each. If every disturbance takes 1.5 s to sweep straight along the length of her 4.5-m-long...
Assume the following waves are propagating in air. Part A. Calculate the wavelength λ1λ1lambda_1 for gamma rays of frequency f1f1f_1 = 5.50×1021 HzHz . Express your answer in meters. Part C. Calculate the wavelength λ2λ2lambda_2 for visible light of frequency f2f2f_2 = 5.70×1014 HzHz . Express your answer in meters + Find the Wavelength 12 of 17 > Review Assume the following waves are propagating in air. Part A Calculate the wavelength 1 for gamma rays of frequency f1 =...
the wavelength of radiation of the visible spectrum is 700 nm The wavelength of radiation at the red edge of the visible spectrum is 700. nm. Calculate the frequency of this radiation. 429 Hz b. 43 kHz 4.28 x 1014 Hz 43 x 1018 Hz 1.23 * 1014 Hz
Infrared radiation has frequencies from 3.0×1011 to 3.0×1014 Hz, whereas the frequency region for visible light is 4.3×1014 to 7.5×1014 Hz. We can say that: 1. The speed of infrared radiation is ____ (higher than, lower than, the same as) visible light. 2. The wavelength of infrared radiation is ____ (higher than, lower than, the same as) visible light.
The x-ray region of the electromagnetic spectrum extends between the frequencies of 1017 Hz and 1020 Hz. For x-rays of these two frequencies, calculate the corresponding wavelength in nanometers and the corresponding energy in keV.
5) The speed of electromagnetic waves in space is 3.00x10m/s. Calculate the wavelength of the following electromagnetic waves with the following frequencies: a. Microwaves at 300.0 MegaHertz (MHz) (lm) b. Green light at 5.8.0x10 Megahertz (MHz) (0.517m) c. Microwaves at 2.45GHz (0.122m)
need help with homework What is the frequency in Hz of electromagnetic radiation with a wavelength 26.0 km? 1.15 X 107 Hz O 7.80 X 10' Hz 7.80 X 1012 Hz 1.15 X 104 Hz