Answer:
The new wave will have a smaller displacement than either of the original waves due to destructive interference.
Explanation:
As we know that the resultant displacement of two waves at a point where two or more waves are superimposed is given by the vector sum of the displacement due to each wave
So we will say
[tex]\vec y = \vec y_1 + \vec y_2[/tex]
so here we can say that if the two particles which are superimposed are in same phase then it will constructive interference and the resultant displacement will be more than the individual displacement of each wave
while if the two particles are in opposite phase then this is known as destructive interference and the resultant displacement of the wave at that point is less than the individual displacement if each wave
Answer:
B- Constructive interference will occur, causing the new wave to have more energy than Wave A or Wave B.
Explanation:
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