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An aluminum can containing a small amount of water is warmed on a burner. The can is then sealed with a lid and removed from the burner. After a few seconds the can begins to crumple inward and collapse, as shown below. Complete the statements to explain this phenomenon. - When the sealed can is removed from the burner, the temperature of the gas inside the can square This means the average kinetic energy of the gas particles square As a result, the gas particles inside the can collide with the walls square often, resulting in a square pressure. This causes the volume of the can to square

Problemas

An aluminum can containing a small amount of water is warmed on a burner. The can is then sealed with a lid and removed from the burner. After a few seconds the can begins to crumple inward and collapse, as shown below. Complete the statements to explain this phenomenon. - When the sealed can is removed from the burner, the temperature of the gas inside the can square This means the average kinetic energy of the gas particles square As a result, the gas particles inside the can collide with the walls square often, resulting in a square pressure. This causes the volume of the can to square

An aluminum can containing a small amount of water is warmed on a burner. The can is then sealed with a lid and removed from the burner. After a few seconds the can begins to crumple inward and collapse, as shown below. Complete the statements to explain this phenomenon. - When the sealed can is removed from the burner, the temperature of the gas inside the can square This means the average kinetic energy of the gas particles square As a result, the gas particles inside the can collide with the walls square often, resulting in a square pressure. This causes the volume of the can to square

Solución

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Carolinaveterano · Tutor durante 9 años
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- When the sealed can is removed from the burner, the temperature of the gas inside the can **decreases**.<br />- This means the average kinetic energy of the gas particles **decreases**.<br />- As a result, the gas particles inside the can collide with the walls **less** often, resulting in a **lower** pressure.<br />- This causes the volume of the can to **decrease** (or crumple inward).
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