The figure blow shows the kinetic energy of a simple pendulum versus its angle θ from the vertical.  Note the energy units are in milli-joules.  The vertical axis is set by K_s=4mJ and the mass of the pendulum bob is 0.200 kg.  Determine the length of the pendulum in meters.  Use g = 9.8 N/kg.

Transcribed Image Text:

### Energy vs. Angular Displacement Graph **Description:** The graph illustrates the relationship between rotational kinetic energy (K) and angular displacement (θ). **Axes:** - **Horizontal Axis (θ):** The horizontal axis represents angular displacement measured in milliradians (mrad), ranging from -100 mrad to +100 mrad. - **Vertical Axis (K):** The vertical axis represents kinetic energy measured in millijoules (mJ), with an unspecified range but indicating a peak value at \(K_s\). **Graph Detail:** - **Curve Shape:** The curve displayed is a parabolic curve that opens downward, indicating a quadratic relationship between kinetic energy and angular displacement. - **Peak Point (Ks):** The maximum kinetic energy (\(K_s\)) occurs at an angular displacement of \(0\) mrad, which shows symmetry around this point. As the angular displacement increases positively or negatively from \(0\) mrad, the kinetic energy decreases. **Interpretation:** This graph suggests that the system experiences maximum kinetic energy when the angular displacement is zero. As the angular displacement moves away from zero (both in the negative and positive directions), the kinetic energy of the system decreases, forming a symmetrical parabolic shape. This relationship can be commonly seen in oscillatory or rotational systems where the kinetic energy is highest at the equilibrium position (zero displacement) and decreases as the displacement increases away from equilibrium.