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In What Ways Do Velocity and Acceleration Change in Simple Harmonic Motion Graphs?

In Simple Harmonic Motion (SHM), we can look at three important graphs: position, velocity, and acceleration. They all have some cool connections. Let's break them down.

  1. Position vs. Time:

    • This graph looks like a smooth wave.
    • It shows how an object moves back and forth, just like a swing.

  2. Velocity vs. Time:

    • The velocity graph also looks like a wave, but it’s a bit offset.
    • It reaches its highest point when the object is at rest (equilibrium), and it hits zero when the object is at its farthest points.

  3. Acceleration vs. Time:

    • This graph is similar to the position graph but is flipped upside down.
    • It reaches its highest point when the object is at its farthest points from the center.

So, in SHM:

  • Velocity is the fastest in the middle (equilibrium).
  • Acceleration is the strongest when the object is at its farthest point.

It’s really interesting to see how these graphs are all connected!

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In What Ways Do Velocity and Acceleration Change in Simple Harmonic Motion Graphs?

In Simple Harmonic Motion (SHM), we can look at three important graphs: position, velocity, and acceleration. They all have some cool connections. Let's break them down.

  1. Position vs. Time:

    • This graph looks like a smooth wave.
    • It shows how an object moves back and forth, just like a swing.

  2. Velocity vs. Time:

    • The velocity graph also looks like a wave, but it’s a bit offset.
    • It reaches its highest point when the object is at rest (equilibrium), and it hits zero when the object is at its farthest points.

  3. Acceleration vs. Time:

    • This graph is similar to the position graph but is flipped upside down.
    • It reaches its highest point when the object is at its farthest points from the center.

So, in SHM:

  • Velocity is the fastest in the middle (equilibrium).
  • Acceleration is the strongest when the object is at its farthest point.

It’s really interesting to see how these graphs are all connected!

Related articles