To add waves with different amplitudes, simply add the amplitudes of the individual waves together at each point in time. This will give you the total amplitude of the resulting wave at any given point. The resulting wave will have a shape determined by the combined effects of the individual waves.
When waves combine with each other, it is called interference. Interference can be constructive, where the amplitudes of the waves add up, or destructive, where the amplitudes cancel each other out.
When two waves with different frequencies and amplitudes are superimposed, they combine to create a new wave pattern. The resulting wave will have a complex pattern that is a combination of the individual waves. The amplitudes and frequencies of the original waves will influence the shape and characteristics of the resulting wave pattern.
When two waves meet, it is called interference. Interference can result in either constructive interference, where the amplitudes of the waves add together, or destructive interference, where the amplitudes cancel each other out.
The amplitude of a wave produced by interference is determined by the sum of the amplitudes of the individual waves that are interfering. If the waves are in phase (constructive interference), the amplitudes add up, resulting in a larger amplitude. If the waves are out of phase (destructive interference), the amplitudes subtract, resulting in a smaller or zero amplitude.
You can compare the energy of two waves by calculating the square of their amplitudes. The wave with the higher amplitude will have more energy. Additionally, you can compare the frequencies of the waves - higher frequency waves generally carry more energy than lower frequency waves.
The amplitudes add.
When waves combine with each other, it is called interference. Interference can be constructive, where the amplitudes of the waves add up, or destructive, where the amplitudes cancel each other out.
the amplitudes add together
When two waves with different frequencies and amplitudes are superimposed, they combine to create a new wave pattern. The resulting wave will have a complex pattern that is a combination of the individual waves. The amplitudes and frequencies of the original waves will influence the shape and characteristics of the resulting wave pattern.
When two waves meet, it is called interference. Interference can result in either constructive interference, where the amplitudes of the waves add together, or destructive interference, where the amplitudes cancel each other out.
The amplitude of a wave produced by interference is determined by the sum of the amplitudes of the individual waves that are interfering. If the waves are in phase (constructive interference), the amplitudes add up, resulting in a larger amplitude. If the waves are out of phase (destructive interference), the amplitudes subtract, resulting in a smaller or zero amplitude.
You can compare the energy of two waves by calculating the square of their amplitudes. The wave with the higher amplitude will have more energy. Additionally, you can compare the frequencies of the waves - higher frequency waves generally carry more energy than lower frequency waves.
no they cant they have to be the same they complete each other
There's no dependence or connection between a wave's amplitude and its frequency.
Ultraviolet waves can have different amplitudes, from very small to very large. There is no specific amplitude that they always have.
Two sound waves with the same frequency but different amplitudes can be heard when comparing a soft whisper and a loud shout. Both have the same pitch (frequency) but differ in volume (amplitude). Another example could be a gentle tap on a drum compared to a hard strike on the same drum, producing sound waves with the same frequency but different amplitudes.
The amplitude of the wave produced by interference is determined by the superposition of the individual wave amplitudes involved in the interference process. If the waves are in phase (constructive interference), the amplitudes add up and result in a larger wave amplitude. If the waves are out of phase (destructive interference), the amplitudes subtract from each other, resulting in a smaller wave amplitude.