A particle executes simple harmonic motion and is located at x=a, b and c at time to,2to, and 3to respectively. The frequency of the oscillation is 1.) 1/2πto cos-¹ [a+c/2b] 2.) 1/2πto cos-¹[a+b/2c] 3.) 1/2πto cos-¹ [2a+3c/b]4.) 1/4πto cos-¹[a+2b/3c]
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Hey dear,
● Answer-
(1) 1/2πt0 cosinv[(a+c)/2b]
● Explaination-
Let,
a = Asin(wt0)
b = Acos(2wt0)
c = Acos(3wt0)
Now take,
a + c = Asin(wt0) + Asin(3wt0)
a + c = 2Asin(2wt0).cos(wt0)
a + c = 2b.cos(wt0)
cos(wt0) = (a+c)/2b
Taking inverse on both sides,
wt0 = cosinv[(a+c)/2b]
2πft0 = cosinv[(a+c)/2b]
f = cosinv[(a+c)/2b] / 2πt0
Therefore, frequency of oscillation is 1/2πt0 cosinv[(a+c)/2b] .
Hope this helps you...
● Answer-
(1) 1/2πt0 cosinv[(a+c)/2b]
● Explaination-
Let,
a = Asin(wt0)
b = Acos(2wt0)
c = Acos(3wt0)
Now take,
a + c = Asin(wt0) + Asin(3wt0)
a + c = 2Asin(2wt0).cos(wt0)
a + c = 2b.cos(wt0)
cos(wt0) = (a+c)/2b
Taking inverse on both sides,
wt0 = cosinv[(a+c)/2b]
2πft0 = cosinv[(a+c)/2b]
f = cosinv[(a+c)/2b] / 2πt0
Therefore, frequency of oscillation is 1/2πt0 cosinv[(a+c)/2b] .
Hope this helps you...
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