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How does the energy of three photons of blue light compare with that of one photon of blue light from the same source?
If the color (frequency, wavelength) of each is the same, then each photon carries the same amount of energy. Three of them carry three times the energy that one of them carries.
All the photo electrons do not have same energy why?
Photoelectrons do not have the same energy because each electron absorbs a different amount of energy from the incident photons based on the specific interaction between the photon and the electron. This is influenced by factors such as the photon energy, the binding energy of the electron in the material, and the angle of incidence. As a result, photoelectrons exhibit a range of energies rather than a single, uniform energy level.
Which color of the visible spectrum contain the most energy?
Each photon of blue light has more energy than a photon of any other color, because the blue ones have the highest frequency.
What is the diagram that shows the comparative amount of energy at each feeding level called?
The diagram that shows the comparative amount of energy at each feeding level is called an energy pyramid. It represents the flow of energy through different trophic levels in an ecosystem, with energy decreasing as you move up the pyramid.
Is light emitted when an electron makes a transition to a lower energy level?
No, as energy is absorbed. When the reverse happens, the higher state to lower state, the electron is returning to its lower energy level ground state and energy is released in the form of a photon.
Can photons collide with each other?
Yes, photons can interact with each other through a process called photon-photon scattering, where they can exchange energy and momentum.
How are engery and frquency of electromagnetic radiation related?
(The energy of each photon) is (the photon's frequency) times (Planck's Konstant). (The total energy in a beam of it) is (the energy of each photon) times (the number of photons in the beam).
How do you calculate photon flux given v?
Photon flux can be calculated using the formula: photon flux = v * E, where v is the frequency of the photons and E is the energy of each photon. By multiplying the frequency of the photons by the energy of each photon, you can determine the photon flux.
How does the energy of three photons of blue light compare with that of one photon of blue light from the same source?
If the color (frequency, wavelength) of each is the same, then each photon carries the same amount of energy. Three of them carry three times the energy that one of them carries.
What the average amount of energy of motion of each particle of a substance called?
The average amount of energy of motion of each particle of a substance is called kinetic energy. It is related to the speed and mass of the particles.
Do Gamma rays have more energy than light rays?
Theoretically, gamma rays are distinguished by their source, not by the amount of energy each photon carries, so it's not really possible to answer.In practice, most gamma rays have far more energy per photon than visible light.
What is the main difference between radio wave and a light wave?
The difference is their wavelengths. That means that their frequencies are different, and also the amount of energy carried by each photon.
When the light is bluer the each photons contains?
When light is bluer, it means it has a higher frequency. Each photon carries energy, and the energy of a photon is directly proportional to its frequency. Therefore, in bluer light, each photon contains higher energy compared to redder light.
When an electron falls from a higher energy level to a lower energy energy level how is the energy released?
When an electron falls from a higher energy level to a lower energy level, the energy it was carrying is released in the form of a photon. The energy of the photon is equal to the difference in energy between the two levels. This released energy can be observed as light emission in the visible or invisible spectra, depending on the specific energy levels involved.
Do photons interact with each other, and if so, how does this interaction occur?
Yes, photons can interact with each other through a process called photon-photon scattering. This occurs when two photons collide and exchange energy and momentum. However, these interactions are very rare in everyday circumstances due to the low probability of photon collisions.
A diagram that shows the comparative amount of energy at each feeding level is called a?
energy pyramids
All the photo electrons do not have same energy why?
Photoelectrons do not have the same energy because each electron absorbs a different amount of energy from the incident photons based on the specific interaction between the photon and the electron. This is influenced by factors such as the photon energy, the binding energy of the electron in the material, and the angle of incidence. As a result, photoelectrons exhibit a range of energies rather than a single, uniform energy level.
