The amplitudes add.
The wavelength is the distance between two consecutive corresponding points on a wave.Distance between two crests is the wavelength of a wave.
the distance between the crests of two succesive waves is called the wavelength. It is directly related to the frequency of the wave
"lower amplitude"
The distance between two crests of water is the "wavelength."WavelengthIs a one complete wave length(wave lenght)That would be the wavelength.wavelengthIn a wave, the distance from crest to crest is commonly called a wavelength.wavelengthThe distance between two corresponding crests on any type of wave is called a wavelength.That is what is considered the wavelength. Same thing with the troughs.wavelengthThe frequency of the wavelenght, or the Hertz, is the distance between two crests.ans2. wavelength is sufficient.The frequency (Hertz) will depend on the speed of the signal in that medium. Just ignore "Hertz" in the first sentence.wavelength. Which affects frequency.In sound it determines pitch. In visible light it determines color.In waves, the distance is the period. The frequency of the wave is equal to the inverse of the period.Wavelength.wavelengthdistance between two adjacent crests is called as WAVELENGTH.......Distance between two crests is the wavelength of a wave.wavelength (distance between two crests or troughs) !Wavelength.wavelengthThe distance between two consecutive crests or troughs of a transverse wave is called the wavelength.The distance between consecutive crests or troughs on a wave is called as wavelength.Wavelength
here the distance between the two crests is 6mt so the wavelength of the wave is 6 m and 1 wave goes every 6 sec so the frequency of the wave is 1/t=1/6 so the velocity of wave is 3*(1/6)=1/2mt/sec
The resultant wave has double the amplification
Constructive interference occurs when the crests of two waves overlap. This results in an increase in the amplitude of the combined wave.
Constructive interference occurs when the crests of one wave overlap with the crests of another wave. This results in a wave with greater amplitude.
When the crests of two waves overlap, they undergo constructive interference, resulting in an increase in amplitude. This causes the two waves to combine, forming a wave with larger peaks at the point of overlap.
It depends. if the waves are in sync with each other, they will amplify. If they are out of sync, they will be negated.
When two waves' crests meet, they undergo constructive interference. This means that the amplitudes of the two waves add up, resulting in a wave with a greater amplitude. This constructive interference can make the resulting wave appear larger or more intense.
destructive interference
The term for the distance between two crests of water waves is wavelength.
When two waves run into each other, they can interfere constructively, where their crests or troughs align to produce a wave of greater amplitude, or destructively, where their crests and troughs cancel each other out. This interaction is known as wave interference.
When crest from two waves meet, they combine through a process called interference. If the crests align, the amplitudes of the waves add up, resulting in constructive interference and a larger wave. If the crests and troughs align, they cancel each other out through destructive interference.
When two water waves meet in constructive interference, their amplitudes combine to create a larger wave. This occurs when the crests of one wave align with the crests of the other wave, or the troughs align with troughs, resulting in a wave with greater amplitude than the individual waves.
diffraction