Calculating Phase Angle in a Wave Equation: A Practical Guide

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The discussion focuses on calculating the phase angle (δ) in the wave equation y(x,t)=Asin(k(x-vt)+δ). Given parameters include amplitude (A=0.02m), wave speed (v=22.4m/s), and wave number (k=2.80), with a displacement of 0.01m at t=0 and x=0m. The user initially struggled to find δ but resolved it by substituting known values into the equation. After calculations, δ was determined to be 0.52, leading to the final wave equation y(x,t)=0.02sin(2.8x-62.8t+0.52). This exchange highlights the collaborative nature of problem-solving in physics.
RockenNS42
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in the form
y(x,t)=Asin(k(x-vt)+δ)
where p is the phase angle

A is .02m
v=22.4m/s
t=0.1s
k=2.80
wavelengh= 2.24m
at time t=0, the dispaclement(y) is 0.01m with dy/dt is negative

Im not sure how to findδ
 
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You'll find there are a couple of bits of information you have not used yet.
 
I was just having the biggest brain fart ever, I figured it out after I posted, but didnt have a chance till now to comment
 
No worries - sometimes asking a question can be just the thing to unstick the grey matter.
How about posting your answer so anyone else with the same problem will see how you did it?
 
ok well the wave equation is


y(x,t)=Asin(k(x-vt)+δ)
we know A, v,and k and we can sub them into get
y(x,t)=0.02sin(2.8(x-22.4t)+δ)
and expand
y(x,t)=0.02sin(2.8x-62.8t+δ)

to get δ we take the conditions given @t=0, y=.01m
x=0m( its at the driving end, I left this out in my initial question)
now solving for δ we get δ=0.52
therefore
y(x,t)=0.02sin(2.8x-62.8t+0.52)
 
Bootiful :) cheers!
 
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