Asked by anonymous
A 3m slinky rests on a table with a student holding each end. The students laterally shake the ends of the slinky to generate transverse waves. The student on the left shakes the slinky at 4 Hz with a 5 cm amplitude and the student on the right shakes it at 3 Hz with a 7 cm amplitude.
What is the maximum deflection of the string, from its resting position, between the students in cm?
Ok so I'm assuming they mean slinky, since there isn't any string in the problem...
but still, what is that supposed to mean? How is deflection measured?
What is the maximum deflection of the string, from its resting position, between the students in cm?
Ok so I'm assuming they mean slinky, since there isn't any string in the problem...
but still, what is that supposed to mean? How is deflection measured?
Answers
Answered by
Damon
They mean how far from straight the sum of the waves moves the string.
Now if there would be just one wave you could say y = A sin (wt -kx)
and the max would be A
if there was one from the left and one from the right then you have
y = A sin (wt - kx - phi) + B sin (Wt + kx - psi)
the max will be whenever both sines are +1 or -1 and will be A+B which is 8 (or -8)
Now if there would be just one wave you could say y = A sin (wt -kx)
and the max would be A
if there was one from the left and one from the right then you have
y = A sin (wt - kx - phi) + B sin (Wt + kx - psi)
the max will be whenever both sines are +1 or -1 and will be A+B which is 8 (or -8)
Answered by
lena adams
a + b is 12 isnt it. not 8, so answer would be 12?
Answered by
Dan Murphy
An easier way to interpret the maximum deflection as being 12cm is simply to think of the superposition of wave A and wave B meeting constructively. Wave A (5cm) + Wave B (7cm) would result in a 12cm superposed amplitude.
There are no AI answers yet. The ability to request AI answers is coming soon!
Submit Your Answer
We prioritize human answers over AI answers.
If you are human, and you can answer this question, please submit your answer.