The wave function for a standing wave on a string of linear mass density p = 0.2 kg/m, is given by y(x,t) = 0.05 sin(4Ttx)cos(60rt), where x and y are in meters and t is in seconds. At what time would an element of the string, located at x = 0.1 m, has its transverse velocity v_y = v_(y,max)/2? O t=t/360 sec t = Tt/60 sec O t = 1/60 sec O t= 1/360 sec

The wave function for a standing wave on a string of linear mass density p = 0.2 kg/m, is given by y(x,t) = 0.05 sin(4Ttx)cos(60rt), where x and y are in meters and t is in seconds. At what time would an element of the string, located at x = 0.1 m, has its transverse velocity v_y = v_(y,max)/2? O t=t/360 sec t = Tt/60 sec O t = 1/60 sec O t= 1/360 sec

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Question

i need the answer quickly

The wave function for a standing wave on a
string of linear mass density µ = 0.2 kg/m, is
given by y(x,t) = 0.05 sin(4Ttx)cos(60rt),
where x and y are in meters and t is in
seconds. At what time would an element of
the string, located at x = 0.1 m, has its
transverse velocity v_y = v_(y,max)/2?
O t = t/360 sec
t = Tt/60 sec
O t = 1/60 sec
O t= 1/360 sec

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