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Constructive interference which theoretically would result in a 6 amplitude as long as the frequency and wavelength of the 2 waves are the same.
Constructive interference. The troughs will add and if your amplitude of either trough is a and b, the final trough will have amplitude a+b.
Let us look at a cosine wave, described by y = A cos (b). When b = 0 degrees, y = A (<-- peak) When b = 90 degrees, y = 0 (<-- rest position of the wave) When b = 180 degrees, y = -A (<-- trough) When b = 270 degrees, y=0 (<-- rest position again) and so on. If we force A to be a function of time, then the wave becomes a standing wave (see the related link). The peak and trough will reverse their relative position for every half of a period. Regardless, the trough at any time and the rest position is still 90 degrees, or one quarter of a wavelength. ====================================
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The two waves will move through each other unhindered, however at that exact point they will be canceled out and amplitude will be the difference of the amplitudes of the individual waves. If the amplitude of wave a is 10 and the amplitude of wave b is 7, the resulting height will be 10-7=3. If the waves have the same amplitude, the result will be an amplitude of 0.
Constructive interference which theoretically would result in a 6 amplitude as long as the frequency and wavelength of the 2 waves are the same.
Constructive interference. The troughs will add and if your amplitude of either trough is a and b, the final trough will have amplitude a+b.
Let us look at a cosine wave, described by y = A cos (b). When b = 0 degrees, y = A (<-- peak) When b = 90 degrees, y = 0 (<-- rest position of the wave) When b = 180 degrees, y = -A (<-- trough) When b = 270 degrees, y=0 (<-- rest position again) and so on. If we force A to be a function of time, then the wave becomes a standing wave (see the related link). The peak and trough will reverse their relative position for every half of a period. Regardless, the trough at any time and the rest position is still 90 degrees, or one quarter of a wavelength. ====================================
The waves are the scalar and vector parts of Quaternion derivatives: [d/dr, DEL]2 [b,B] = The Longitudinal wave (d2/dr2 - DEL2)b - 2d/dr DEL.B is a scalar wave The Transverse wave (d2/dr2 - DEL2)B + 2d/dr( DEL b + DELxB) is a vector wave.
Follow trough I guess. The word with that in it is BEEF. B: Balance E: Eyes on the rim E:Elbows in and F:Follow trough.
wave a
wave a
wave a
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B. wave lines approaching shore at an angle.
Longitudinal (also called compression) wave
cannery waste this is a place the lungs , liver, etc.... well b trough