A mass m is attached to a spring of force constant 76.0 N/m and allowed to oscillate. The figure (Figure 1) shows a graph of its velocity vx as a function of time t. Find the period, frequency, and angular frequency of this motion. What is the amplitude (in cm)? At what times does the mass reach the position x=±A in the interval between t=0s and t=1.8s including the endpoints? Find the maximum acceleration of the mass. Find the times at which the maximum acceleration occurs in the interval between t=0s and t=1.8s including the endpoints. What is the mass m? 

Transcribed Image Text:

The image displays a graph illustrating the velocity \( v_x \) as a function of time \( t \). - **Axes**: - The horizontal axis represents time in seconds (s), ranging from 0 to 2.0 seconds. - The vertical axis represents velocity in centimeters per second (cm/s), ranging from -20 cm/s to 20 cm/s. - **Wave Pattern**: - The graph depicts a sinusoidal wave, suggesting harmonic motion. - The wave peaks at approximately 0.1 seconds with a maximum velocity of 20 cm/s. - The wave reaches a trough (minimum velocity of -20 cm/s) at around 0.6 seconds. - This pattern repeats, peaking again at 1.2 seconds and forming another trough at approximately 1.7 seconds. - **Characteristics**: - The wave crosses the horizontal axis at roughly 0.35 and 0.85 seconds, indicating moments of zero velocity. - The periodic nature of the graph suggests regular periodic motion, such as simple harmonic movement. This type of graph is typical in physics to illustrate oscillatory or periodic motion, such as that seen in springs or pendulums.