The B-string on a guitar is pulled a distance of 0.35 mm above its rest position, then released and allowed to vibrate. The damping constant e for this string is determined to be 1.8. Suppose that the note produced is a pure B which has a frequency of 246.94 cycles per second. Find an equation that describes the motion of the point at which the string was pulled. O y = 0.35e-0.35t sin 493.88x1 y = 0.35e-1.81 sin 493.88r y = 0.35e-1.8t cos 493.88xt y = 1.8e-0.35t cos 493.88xt

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The B-string on a guitar is pulled a distance of 0.35 mm above its rest position, then released and allowed to vibrate. The damping constant c for this string is determined to be 1.8. Suppose that the note produced is a pure B which has a frequency of 246.94 cycles per second. Find an equation that describes the motion of the point at which the string was pulled. O y = 0.35e-0.35t sin 493.88x! O y = 0.35e-1.8ł sin 493.881 O y = 0.35e-1.8t cos 493.88xt cos 493.88xt O y = 1.8e-0.35 O y = 1.8e -0.35r sin 493.88xt Find a model for simple harmonic motion of a spring that has a maximum positive displacement of 21 inches when 1 = , and a period of 10 seconds. O y = 21 sin O y = 21 sin O y = 21 cos O y = -21 sin : O y = 21 cos Find the frequency for the simple harmonic motion described by d = 7 sin 13xt. Frequency cycles per unit of time