One end of a string is tied to a wall, with a length L=.900m from the wall to the point where the string touches a pulley. The other end passes over the frictionless pulley and is connected to a block of mass m=.250kg. When the string is stretched over the pulley, it's linear mass density is 2.40x10^-4kg/m Part a) sketch the four lowest modes for the string, taking the pulley to be a fixed end Part b) Determine the speed of the wave on the string in m/s Part c) calculate the frequency f of the fundamental mode of this string in Hz Part d) Calculate the frequency f of the third mode of this string in Hz

One end of a string is tied to a wall, with a length L=.900m from the wall to the point where the string touches a pulley. The other end passes over the frictionless pulley and is connected to a block of mass m=.250kg. When the string is stretched over the pulley, it's linear mass density is 2.40x10^-4kg/m Part a) sketch the four lowest modes for the string, taking the pulley to be a fixed end Part b) Determine the speed of the wave on the string in m/s Part c) calculate the frequency f of the fundamental mode of this string in Hz Part d) Calculate the frequency f of the third mode of this string in Hz

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Question

100%

One end of a string is tied to a wall, with a
length L=.900m from the wall to the point
where the string touches a pulley. The other
passes over the frictionless pulley and is
connected to a block of mass m=.250kg.
end
When the string is stretched over the pulley,
it's linear mass density is 2.40x10^-4kg/m
Part a) sketch the four lowest modes for the
string, taking the pulley to be a fixed end
Part b) Determine the speed of the wave on
the string in m/s
Part c) calculate the frequency f of the
fundamental mode of this string in Hz
Part d) Calculate the frequency f of the third
mode of this string in Hz

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