Absorption loss occurs when light is absorbed by particles or materials in the medium and converted into other forms of energy, such as heat. Scattering loss, on the other hand, happens when light is deflected or scattered in different directions by particles or molecules in the medium, leading to a reduction in the transmitted light intensity without absorption.
Absorption refers to the process in which a material absorbs and retains energy from a beam of radiation as it passes through it. Attenuation, on the other hand, refers to the overall reduction in the intensity of the radiation beam as it travels through a substance due to a combination of absorption and scattering.
Photoelectric effect: X-ray photon is completely absorbed by an inner-shell electron, leading to ionization and emission of a photoelectron. Compton scattering: X-ray photon interacts with an outer-shell electron, losing some of its energy and changing direction. Pair production: X-ray photon interacts with the nucleus of an atom, converting energy into an electron-positron pair. Rayleigh scattering: X-ray photon interacts with a loosely bound outer-shell electron, causing scattering without energy loss. Coherent scattering: X-ray photon interacts with whole atoms, leading to scattering with no change in energy.
You would expect the best transmission of light in a material that is transparent, such as glass or clear plastic. These materials allow light to pass through without much absorption or scattering, resulting in minimal loss of light intensity.
Heat absorption is the process by which an object takes in heat energy from its surroundings, increasing its own temperature. Heat loss, on the other hand, is when an object releases heat energy to its surroundings, causing its temperature to decrease. Both processes are important for understanding how thermal energy is transferred between objects.
Heat loss can be increased by increasing the temperature difference between the object and its surroundings, increasing the surface area of the object, and decreasing the insulation around the object. Additionally, air movement can increase heat loss through convection.
In the fiber optics there are different types of losses; these are the bending loss, absorption loss, dispersion loss, and scattering losses. Bending losses is the loss which exists when an optical fiber undergoes bending, this includes macroscopic and microscopic bending. Absorption loss is the absorption of light energy resulting in dimming of light at the end of the fiber, this includes intrinsic and extrinsic absorption. Dispersion loss is the distortion of the signal as it travels along the fiber optic cable, this includes intermodal and intramodal dispersion. Scattering losses occurs due to microscopic variations in the material density, compositional fluctuations, structural homogeneities and manufacturing defects, this includes linear and non-linear scattering.
hi I'm Nivedita.the difference between discount and loss is discount is the reduced price whereas loss means the amount of money lost from the c.p.
Absorption refers to the process in which a material absorbs and retains energy from a beam of radiation as it passes through it. Attenuation, on the other hand, refers to the overall reduction in the intensity of the radiation beam as it travels through a substance due to a combination of absorption and scattering.
No difference. It is just a matter of symantics (different ways to say the same thing).
both have a slight tinge of "epic"
Peril is cause of loss whereas hazard is condition which arises the chances of loss.
When you have a stop loss you and you reach a claim over your amount. they will reduce your amount .
profit or loss
profit or loss
Roughly 30% of the sun's energy is scattered or reflected back into space primarily due to interactions with the Earth's atmosphere, clouds, and surface. This loss of solar energy occurs through processes like Rayleigh scattering, absorption, and reflection.
Photoelectric effect: X-ray photon is completely absorbed by an inner-shell electron, leading to ionization and emission of a photoelectron. Compton scattering: X-ray photon interacts with an outer-shell electron, losing some of its energy and changing direction. Pair production: X-ray photon interacts with the nucleus of an atom, converting energy into an electron-positron pair. Rayleigh scattering: X-ray photon interacts with a loosely bound outer-shell electron, causing scattering without energy loss. Coherent scattering: X-ray photon interacts with whole atoms, leading to scattering with no change in energy.
Echoes get fainter because each time the sound wave reflects off a surface, it loses some energy due to absorption, scattering, and dispersion. This energy loss causes the echo to decrease in intensity as it repeatedly bounces off surfaces and travels further away from the source.