Hot Air Ballons Travel at Low Altiudes Because If it goes any Higher it could pop.
Hot air balloons can travel in the troposphere, which is the lowest layer of Earth's atmosphere. They typically fly at altitudes ranging from a few hundred feet to a few thousand feet above the ground.
They fly at low altitudes because if you fly too high, the balloon may pop. A2: Above seems unlikely, as the balloon is open at its lower end. Mainly I think because they are generally used for passenger viewing flights and the general public would not have the clothing for high altitudes as well as not wanting to be very high since the purpose of the flight is to view the terrain below. The balloon works by making the air inside hotter and less dense than the surrounding air, so as it rises it needs to use more fuel to achieve this as the surrounding air gets less dense. There must be an effective max height for hot air balloons but I don't know what the record is.
Hot air balloons can typically fly up to 10,000 feet above sea level, although some can reach higher altitudes depending on weather conditions. The distance a hot air balloon can travel is limited by the amount of fuel it carries, typically ranging from 25 to 100 miles in a single flight.
Hot air balloons fly by heating the air within the balloon envelope, which causes it to become less dense than the surrounding air. This difference in density creates lift, allowing the balloon to rise. By controlling the temperature of the air inside the balloon, the pilot can make the balloon ascend or descend.
The limit on how high a hot air balloon can get is primarily determined by the buoyancy of the air inside the balloon compared to the surrounding air. As the balloon ascends, the air pressure and temperature decrease, which can cause the balloon to reach a point where it can no longer rise. Additionally, factors such as the weight of the balloon and the amount of lift it generates can also impact its maximum altitude.
hot air baloons are able to fly because the hot air that is released in to the ballon wants to get out so there for it keeps pushing and that is how a hot air balloon floats
they invented there hot air baloons in France where they grew up..
not really. Hot air baloons don't because its really a one-man crew, and then there might be 2 passengers...
The density of hot air is lower than air at low altitudes, but the air at higher altitudes is very thin. A hot air balloon can only rise until its density equals the surrounding air.
Could not control over vertical travel is the disadvantage and advantage is you could see many sites over the trees
Hot air balloons can travel in the troposphere, which is the lowest layer of Earth's atmosphere. They typically fly at altitudes ranging from a few hundred feet to a few thousand feet above the ground.
hot air rises
A liquid have random particles but they are still all joined together.
They fly at low altitudes because if you fly too high, the balloon may pop. A2: Above seems unlikely, as the balloon is open at its lower end. Mainly I think because they are generally used for passenger viewing flights and the general public would not have the clothing for high altitudes as well as not wanting to be very high since the purpose of the flight is to view the terrain below. The balloon works by making the air inside hotter and less dense than the surrounding air, so as it rises it needs to use more fuel to achieve this as the surrounding air gets less dense. There must be an effective max height for hot air balloons but I don't know what the record is.
Hot air balloons can typically fly up to 10,000 feet above sea level, although some can reach higher altitudes depending on weather conditions. The distance a hot air balloon can travel is limited by the amount of fuel it carries, typically ranging from 25 to 100 miles in a single flight.
An average hot air balloon can travel about 25 to 30 miles.
Hot air balloons fly by heating the air within the balloon envelope, which causes it to become less dense than the surrounding air. This difference in density creates lift, allowing the balloon to rise. By controlling the temperature of the air inside the balloon, the pilot can make the balloon ascend or descend.