| 1. | Therefore, oscillating material does not move far from its initial equilibrium position.
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| 2. | In this classic demonstration, the floating hydrometer remains at an equilibrium position.
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| 3. | The system oscillates about the equilibrium position under the influence of loads.
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| 4. | The atoms in a molecule or a solid vibrate about their equilibrium positions.
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| 5. | When the person lets go, the molecules pop back into their equilibrium position.
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| 6. | Therefore, the mass continues past the equilibrium position, compressing the spring.
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| 7. | As a result, it accelerates and starts going back to the equilibrium position.
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| 8. | When the mass moves closer to the equilibrium position, the restoring force decreases.
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| 9. | In the first stage the economy is in equilibrium position.
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| 10. | Once the mass is displaced from its equilibrium position, it experiences a net restoring force.
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