Atmospheric pressure decreases as you go to a higher altitude. When you take a sealed bag of chips to a higher altitude, does the bag expand or shrink? Explain the reason using one of gas laws O 1) According to Avogadro's law pressure is inversely proportional to volume (constant T and n) so the bag will shrink O 2) According to Boyle's law pressure is inversely proportional to volume (constant T and n) so the bag will shrink 3) According to Gay Lussac's law pressure is inversely proportional to volume (constant T and n) so the bag will expand O 4) According to Boyle's law pressure is inversely proportional to volume (constant T and n) so the bag will expand O 5) According to Charles's law pressure is inversely proportional to volume (constant T and n) so the bag will expand

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**Title: Understanding the Effect of Altitude on Sealed Bags Using Gas Laws** **Question:** Atmospheric pressure decreases as you go to a higher altitude. When you take a sealed bag of chips to a higher altitude, does the bag expand or shrink? Explain the reason using one of the gas laws. **Options:** 1) According to Avogadro's law, pressure is inversely proportional to volume (constant T and n), so the bag will shrink. 2) According to Boyle's law, pressure is inversely proportional to volume (constant T and n), so the bag will shrink. 3) According to Gay-Lussac's law, pressure is inversely proportional to volume (constant T and n), so the bag will expand. 4) According to Boyle's law, pressure is inversely proportional to volume (constant T and n), so the bag will expand. 5) According to Charles's law, pressure is inversely proportional to volume (constant T and n), so the bag will expand. **Explanation:** Based on Boyle's law, which states that at constant temperature (T) and amount of gas (n), the pressure of a gas is inversely proportional to its volume (P1V1 = P2V2). Therefore, as pressure decreases at higher altitudes, the volume of the gas inside the sealed bag increases, causing the bag to expand.