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What wavelengths carry most energy?
Shorter wavelengths, such as gamma rays and X-rays, carry the most energy because they have high frequencies and short wavelengths, which is inversely proportional to their energy. Conversely, longer wavelengths like radio waves carry less energy because they have lower frequencies and longer wavelengths.
What do waves look like when the have less energy?
Waves with less energy appear smaller, have lower amplitudes, and shorter wavelengths. They may also move slower than waves with more energy.
What The wavelengths of radio waves are much blank than the wavelength of microwaves therefore radio waves carry much blank energy than a microwave?
The wavelengths of radio waves are much longer than the wavelength of microwaves, therefore radio waves carry much less energy than a microwave.
Why do the waves with shorter wavelengths scatter more than those with long wavelength?
Waves with shorter wavelengths interact with smaller particles or obstacles in the medium, leading to more scattering. This is due to the wave's ability to couple more effectively with these smaller features. In contrast, longer waves interact less with these small particles, resulting in less scattering.
How does the energy associated with waves change as wavelength change?
As wavelength decreases, the energy associated with the waves increases. This is because shorter wavelengths have higher frequencies, which means each wave carries more energy. Conversely, longer wavelengths have lower frequencies and thus carry less energy.
What is the lowest energy wave?
Radio waves are the lowest energy waves in the electromagnetic spectrum. They have long wavelengths and carry less energy compared to other types of waves like visible light or X-rays.
Waves with the greater amplitudes carry MORE OR LESS energy than waves with smaller amplitudes?
Wave with higher amplitude carry more energy than wave with lower amplitude. For simple consideration, no amplitude is no wave and thus no energy but just a flat surface of water. Wave with amplitude must have higher energy than the no wave.
How does the energy associated with waves change as a wavelength changes?
The energy associated with photons in an electromagnetic waves increases as the wavelength decreases. The equation is E = hc/λ, where E is energy of a photon, h is Planck's constant (6.62606957×10-34 J.s), c is the speed of light in a vacuum (299,792,458 m/s) and λ is wavelength.
What wavelengths of electromagnetic radiation possess sufficient energy to be microbicidal?
Less than 300nm
Why are waves small?
Waves can be small due to factors such as low energy or limited disturbance in the medium through which they are traveling. Smaller waves may also result from shorter wavelengths or less pronounced amplitudes.
Is it true that the larger the amplitude of the less energy is transported by the Wave?
No, the energy transported by a wave is proportional to the square of its amplitude. This means that waves with larger amplitudes actually carry more energy compared to waves with smaller amplitudes.
Why are short wavelengths of EM radiation less common then medium wavelengths?
Shorter wavelengths, like gamma rays and X-rays, require more energy to produce than longer wavelengths like visual light.
