Extremely high-energy photons of 1.0 × 1013 eVare occasionally observed from distant astronomical sources.
A.) What is the corresponding frequency?
B.) What is the corresponding wavelength?
Extremely high-energy photons of 1.0 × 1013 eVare occasionally observed from distant astronomical sources. A.) What...
Part B is has the same question as part A. Part B What is the corresponding wavelength? Express your answer with the appropriate units. J t M ? Value = Units Constants Extremely high-energy photons of 1.4 x 1013 eV are occasionally observed from distant astronomical sources. Part A What is the corresponding frequency? Express your answer with the appropriate units. uÅ ? o 12 M % x Å
What is the wavelength (in m) of photons with the energy observed at 90.5 kJ/mol? (Plank’s constant = 6.626 x 10-34 J s)
Gamma rays are photons with very high energy. How many visible-light photons with a wavelength of 500 nm would you need to equal the energy of a gamma-ray photon with energy 4.1x10^-13J A) 1.0 × 106 B) 1.4 × 108 C) 6.2 × 109 D) 3.9 × 103
3. a beam of photons from lab investigation are found to have an energy of 1.1042 x 10^-5 joules/photons a) what is the frequency of light from these photons? b) what is the wavelength of light from these photons? c) what type of emission are these photons?
An astronomer observed electromagnetic waves emitted by oxygen atoms in a distant galaxy moving toward Earth at a speed of 2.467 times 10^7 m/s. In the laboratory on Earth, oxygen atoms emit waves that have a frequency of 5.841 times 10^14 Hz. At what frequency does the astronomer observe the light emitted by oxygen atoms from the distant galaxy? A certain metal has a work function for photoelectric emission of phi delta = 3.50 eV. What is the threshold frequency...
Diffraction occurs for all types of waves, including sound waves. High-frequency sound from a distant source with wavelength 8.90 cm passes through a narrow slit 11.5 cm wide. A microphone is placed 44.0 cm directly in front of the center of the slit, corresponding to point O.The microphone is then moved in a direction perpendicular to the line from the center of the slit to point O. At what minimal distance from O will the intensity detected by the microphone be...
A scientist uses the 488.0 nm output from an Ar+ laser to study the vibrational energy levels of pyrimidine. A large peak due to the ring breathing vibration of the molecule is observed in the Stokes Raman spectrum at 990 cm−1. What is the wavelength in nm of the photons corresponding to this peak that the scientist is detecting? Enter the wavelength of the scattered photons.
A scientist uses the 454.6 nm output from an Ar+ laser to study the vibrational energy levels of pyrimidine. A large peak due to the ring breathing vibration of the molecule is observed in the Stokes Raman spectrum at 990 cm−1. What is the wavelength in nm of the photons corresponding to this peak that the scientist is detecting?
(a) Photoelectrons with a maximum kinetic energy of 7.6eV are emitted from a metal when it is illuminated by ultraviolet radiation with a wavelength of 1.3×102 nm. (i) What is the energy of the incident photons in electronvolts? (ii) What is the wavelength of the radiation (in nanometres) corresponding to the lowest energy photons that can free electrons from the metal? (iii) How do you explain the fact that, when infrared radiation is shone on this metal, no photoelectrons are...
Diffraction occurs for all types of waves, including sound Waves High frequency sound from a distant source with Wervelength 0.30 cm passes through a narrows 125 cm Wide Amicrophone is placed oem directly in front of the center of the corresponding to point in the figure 36 50 in the textbook. The microphone is then moved in a direction perpendicular to the line from the center of the shit to point Part A At what minimal distance from will the...