The average speed of a hot air balloon is typically between 5-10 mph. However, the speed can vary depending on the wind conditions and altitude.
The average speed of a hot air balloon is typically around 5-10 miles per hour. However, it can vary depending on wind conditions and altitude.
The formula for calculating the air speed of a hot air balloon is dependent on various factors such as wind speed, direction, and the balloon's altitude. Typically, the pilot will need to consider these factors along with the balloon's rate of ascent or descent to determine the air speed accurately.
An average hot air balloon can travel about 25 to 30 miles.
The weight of a hot air balloon varies depending on its size and design. On average, a small hot air balloon can weigh around 250-400 pounds (113-181 kg) without passengers or fuel.
A average hot air balloon can travel around 25 miles. But it all depends on how big it is and how much gas you have
It travels at the speed of the wind.
Typically, a hot air balloon travels at a speed of around 5 to 10 miles per hour, though this can vary depending on factors such as wind speed and direction. Balloonists can control the direction of the balloon to some extent, but the speed is largely determined by the wind.
to make a hot air balloon rise you use hot air
A hot air balloon flies because it is filled with hot air. Hot air rises and causes the balloon to lift from the ground.
Environmental factors that affect hot air balloons include wind speed and direction, temperature, and air pressure. Wind speed and direction determine the direction the balloon will travel, while temperature influences the temperature of the air inside the balloon. Air pressure affects the lift capability of the hot air balloon.
A hot air balloon flies because hot air inside the balloon is less dense than the cooler air outside. This temperature difference creates lift, allowing the balloon to rise and float in the air. By controlling the temperature of the air inside the balloon, the pilot can control the balloon's ascent and descent.