Studying a Simple Harmonic Oscillator

Consider a simple harmonic oscillator target - a simple harmonic motion of the pendulum can be studied by pasting an automatic tape on the pendulum and analyzing the marked points on the tape. Theory ------ In this experiment, we used a rope to suspend a mass of 0.5 kg. [IMAGE] Referring to the figure above, [IMAGE] takes into account the tangential force of the mass. [IMAGE] [IMAGE] - Vibration is a simple harmonic function. Therefore, by analyzing the automatic inclusion obtained after the experiment, you can learn more about the simple harmonization movement.

If we can prove that the restoring force is proportional to the displacement, a simple harmonic oscillator is obtained. When trying to determine whether there is a simple harmonic oscillator, be careful about a small angle (less than about) (there is a difference of less than about 1% at small angles). Thus, if the angle is less than about 12 °, the restoring force is within the duration of a single pendulum. This result is interesting from its simplicity. The only factors that affect the time of the pendulum are its length and gravitational acceleration. This period is completely independent of other factors like quality. As with the harmonic oscillator, the pendulum period is almost independent of the amplitude, especially when it is less than about 2. Accurate adjustment even with a simple pendulum clock accurate

Pendulum is commonly used. There are things that have important uses such as watches, things that have fun things like children's swings, and fishing line pendants. If the displacement is small, the pendulum is a simple harmonic oscillator. A simple pendulum is defined as a small object also called a pendulum and hangs from a filament or a rope as shown. You can also examine the pendulum and find conditions that make a simple harmonious movement. You can get an interesting expression about that cycle.