it goes down
When the air inside a hot air balloon is heated, it expands and becomes less dense than the cooler air outside the balloon. This decrease in density creates an upward buoyant force, allowing the balloon to rise. As the temperature of the air increases, the balloon ascends, and when the air cools, it becomes denser, causing the balloon to descend. This principle of buoyancy is what enables hot air balloons to fly.
Hot-air balloons function on the principle that warm air rises, and the balloon mechanism holds onto hot air to ascend. Despite this, the hot air can't stay in the balloon forever, the opening at the top of the balloon allowing a slow and steady flow of the hot air out of the balloon and a gentle descent to the ground.
When the burner in a hot air balloon is turned off, the flame that heats the air inside the envelope ceases, leading to a gradual cooling of the air. As the air cools, it becomes denser, causing the balloon to lose lift and begin to descend. The descent rate can be controlled by adjusting the balloon's vent to release hot air or by using the burner intermittently to maintain altitude. Ultimately, the balloon will land safely when it descends to ground level.
When the burner is turned off, the air inside the hot air balloon starts to cool down. As the air cools, the balloon loses lift and begins to slowly descend back to the ground. Without the burner heating the air inside the balloon, it will eventually land.
A hot air balloon needs to carry a means of producing more hot air to keep the envelop inflated and lifting in flight. Otherwise, as the initial hot air cools, so the balloon will descend to the ground.
A hot air balloon rises because the air inside the balloon is heated by a burner, making it less dense than the surrounding cooler air. This temperature difference creates buoyancy, causing the balloon to float upwards. As the air inside the balloon cools down, the particles lose energy and the balloon begins to descend.
When the burner is turned off, the air inside the hot air balloon cools down. As the air cools, it becomes denser and the balloon will start to descend due to the decrease in buoyancy. The pilot may need to use the burner again to maintain altitude or control the descent.
When the air inside a hot air balloon is heated, it expands and becomes less dense than the cooler air outside the balloon. This decrease in density creates an upward buoyant force, allowing the balloon to rise. As the temperature of the air increases, the balloon ascends, and when the air cools, it becomes denser, causing the balloon to descend. This principle of buoyancy is what enables hot air balloons to fly.
Once the air cools, the balloon will lose its lift and settle back to the ground.
Hot-air balloons function on the principle that warm air rises, and the balloon mechanism holds onto hot air to ascend. Despite this, the hot air can't stay in the balloon forever, the opening at the top of the balloon allowing a slow and steady flow of the hot air out of the balloon and a gentle descent to the ground.
Air inside the balloon is heated. Hot air is less dense than the surrounding air, and thus the balloon rises.
When the burner in a hot air balloon is turned off, the flame that heats the air inside the envelope ceases, leading to a gradual cooling of the air. As the air cools, it becomes denser, causing the balloon to lose lift and begin to descend. The descent rate can be controlled by adjusting the balloon's vent to release hot air or by using the burner intermittently to maintain altitude. Ultimately, the balloon will land safely when it descends to ground level.
Hot air is lighter than cool air, so when the balloon is filled with hot air, it becomes less dense than the surrounding cool air, causing it to rise. As the hot air inside the balloon cools, the balloon will descend. By controlling the temperature of the air inside the balloon, the pilot can control the altitude.
When the burner is turned off, the air inside the hot air balloon starts to cool down. As the air cools, the balloon loses lift and begins to slowly descend back to the ground. Without the burner heating the air inside the balloon, it will eventually land.
it pops
A hot air balloon needs to carry a means of producing more hot air to keep the envelop inflated and lifting in flight. Otherwise, as the initial hot air cools, so the balloon will descend to the ground.
A hot air balloon would not work on the moon.