It pops
Lowered Pressure
Lowered Pressure
Lowered Pressure
Lowered pressure (Explanation): the question is asking what factor will cause the balloon to expand when it is taken to the top of the mountain. We know that there is lower air pressure at the top of the mountain compared to sea level, so the lower pressure causes the balloon to expand, not the temperaure or anything else. This is basically a real-life application of boyle's law
Lowered Pressure
Lowered Pressure
Lowered Pressure
Lowered Pressure
Lowered Pressure
Lowered Pressure
Lowered pressure (Explanation): the question is asking what factor will cause the balloon to expand when it is taken to the top of the mountain. We know that there is lower air pressure at the top of the mountain compared to sea level, so the lower pressure causes the balloon to expand, not the temperaure or anything else. This is basically a real-life application of boyle's law
If a balloon is placed on top of a fire, the heat will cause the air inside the balloon to expand rapidly, potentially causing the balloon to burst or pop. The rubber material of the balloon is not flame-resistant and could catch fire. It is not safe to place a balloon on top of a fire.
Lowered Pressure
As a balloon ascends to the top of a mountain, the decrease in atmospheric pressure causes the air inside the balloon to expand. According to Boyle's Law, when the external pressure decreases, the volume of a gas increases if the temperature remains constant. This expansion can potentially lead to the balloon bursting if it exceeds the material's limits. Additionally, temperature changes with altitude may also affect the balloon's behavior.
the temperature gets lower as you get higher. That'swhy there is ice caps on top of the mountain.
it turns to rain
If you took an inflated balloon to the top of a mountain, the air pressure surrounding the balloon would decrease as you ascend. This would cause the air inside the balloon to expand, potentially leading to the balloon bursting if the pressure differential is too great. Additionally, the lower air pressure at higher altitudes would cause the balloon to appear larger than it would at sea level due to the decreased external pressure pushing against it.