For a mass system with forced spring the mass is m = 1.0000 Kg, the spring constant is k = 4.0000 N/ m, the coefficient b for damping (drag force) is b = 4.0000 Kg / s, and the amplitude of the imposed force Fis F = 10 N and its angular frequency is 3.75 radians / s. Suppose it is in resonance if the amplitude of the movement is at least 25% of the maximum possible (I chose this arbitrarily, but not to limit ourselves to being the ideal maximum situation.) Indicates if it is in resonance, under that definition. Make a graph of 15.29 in DESMOS to see the curve of the amplitude vs w to see if it complies. Select one: a. no b. Yes

For a mass system with forced spring the mass is m = 1.0000 Kg, the spring constant is k = 4.0000 N/ m, the coefficient b for damping (drag force) is b = 4.0000 Kg / s, and the amplitude of the imposed force Fis F = 10 N and its angular frequency is 3.75 radians / s. Suppose it is in resonance if the amplitude of the movement is at least 25% of the maximum possible (I chose this arbitrarily, but not to limit ourselves to being the ideal maximum situation.) Indicates if it is in resonance, under that definition. Make a graph of 15.29 in DESMOS to see the curve of the amplitude vs w to see if it complies. Select one: a. no b. Yes

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Question

For a mass system with forced spring the mass is m = 1.0000 Kg, the spring constant is k =
4.0000 N / m, the coefficient b for damping (drag force) is b = 4.0000 Kg / s, and the amplitude
of the imposed force Fis F = 10 N and its angular frequency is 3.75 radians / s. Suppose it is in
resonance if the amplitude of the movement is at least 25% of the maximum possible (I chose
this arbitrarily, but not to limit ourselves to being the ideal maximum situation.)
Indicates if it is in resonance, under that definition. Make a graph of 15.29 in DESMOS to see
the curve of the amplitude vs w to see if it complies.
Select one:
a. no
b. Yes

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