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A String of Linear Density $\mu$ And Length L Is Under a Constant Tension T =

Question 58

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A string of linear density $\mu$ and length L is under a constant tension T = mg.One end of the string is attached to a tunable harmonic oscillator.A resonant standing wave is observed $A string of linear density \mu and length L is under a constant tension T = mg.One end of the string is attached to a tunable harmonic oscillator.A resonant standing wave is observed A) at any frequency. B) when the frequency where n = 1,2,3,... C) when the frequency where n = 1,2,3,... D) when the frequency where n = 1,2,3,...and vs is the speed of sound. E) unable to tell$

A) at any frequency.
B) when the frequency $A string of linear density \mu and length L is under a constant tension T = mg.One end of the string is attached to a tunable harmonic oscillator.A resonant standing wave is observed A) at any frequency. B) when the frequency where n = 1,2,3,... C) when the frequency where n = 1,2,3,... D) when the frequency where n = 1,2,3,...and vs is the speed of sound. E) unable to tell$ where n = 1,2,3,...
C) when the frequency $A string of linear density \mu and length L is under a constant tension T = mg.One end of the string is attached to a tunable harmonic oscillator.A resonant standing wave is observed A) at any frequency. B) when the frequency where n = 1,2,3,... C) when the frequency where n = 1,2,3,... D) when the frequency where n = 1,2,3,...and vs is the speed of sound. E) unable to tell$ where n = 1,2,3,...
D) when the frequency $A string of linear density \mu and length L is under a constant tension T = mg.One end of the string is attached to a tunable harmonic oscillator.A resonant standing wave is observed A) at any frequency. B) when the frequency where n = 1,2,3,... C) when the frequency where n = 1,2,3,... D) when the frequency where n = 1,2,3,...and vs is the speed of sound. E) unable to tell$ where n = 1,2,3,...and v_s is the speed of sound.
E) unable to tell

A String of Linear Density μ\muμ And Length L Is Under a Constant Tension T =

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A String of Linear Density $\mu$ And Length L Is Under a Constant Tension T =

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