No. Air or helium goes inside the balloon.
The two forces that affect a hot air balloon are buoyancy and gravity. Buoyancy is the force that lifts the balloon due to the difference in densities between the hot air inside the balloon and the cooler air outside. Gravity acts to pull the balloon back down toward the ground.
A balloon drops to the ground because of gravity, which is a force pulling objects towards the Earth's center. The air inside the balloon is less dense than the surrounding air, causing it to be less buoyant and leading the balloon to fall due to gravity.
Two forces that act on a hot air balloon are lift, generated by the heated air inside the balloon being less dense than the surrounding air, and gravity, which pulls the balloon downward.
When you drop a balloon, gravity pulls it down towards the ground. As it falls, the air inside the balloon is pushed out through the opening, causing the balloon to deflate and eventually land on the ground.
The four forces are lift, weight (or gravity), thrust, and drag. Lift is generated by the hot air inside the balloon being less dense than the cooler air outside. Weight is the force of gravity pulling the balloon down. Thrust is provided by the burner heating the air inside the balloon. Drag is the resistance caused by the air pushing against the balloon as it moves.
The two forces that affect a hot air balloon are buoyancy and gravity. Buoyancy is the force that lifts the balloon due to the difference in densities between the hot air inside the balloon and the cooler air outside. Gravity acts to pull the balloon back down toward the ground.
A balloon drops to the ground because of gravity, which is a force pulling objects towards the Earth's center. The air inside the balloon is less dense than the surrounding air, causing it to be less buoyant and leading the balloon to fall due to gravity.
Two forces that act on a hot air balloon are lift, generated by the heated air inside the balloon being less dense than the surrounding air, and gravity, which pulls the balloon downward.
When you drop a balloon, gravity pulls it down towards the ground. As it falls, the air inside the balloon is pushed out through the opening, causing the balloon to deflate and eventually land on the ground.
The four forces are lift, weight (or gravity), thrust, and drag. Lift is generated by the hot air inside the balloon being less dense than the cooler air outside. Weight is the force of gravity pulling the balloon down. Thrust is provided by the burner heating the air inside the balloon. Drag is the resistance caused by the air pushing against the balloon as it moves.
A balloon rises against gravity because of buoyancy force - the difference in density between the air inside the balloon and the surrounding air creates an upward force. By heating the air inside the balloon (hot air balloon) or by using a gas that is lighter than air (like helium or hydrogen), the balloon becomes less dense and is lifted up.
In a hot air balloon ride, the main forces acting on the balloon are lift, gravity, and drag. The hot air inside the balloon is lighter than the cooler air outside, creating lift. Gravity pulls the balloon downwards, and drag opposes the balloon's forward movement through the air. Flight control is achieved by controlling the amount of hot air in the balloon.
Three working forces on a hot air balloon are lift (created by hot air inside the balloon being lighter than the surrounding air), gravity (pulling the balloon downward), and drag (resistance caused by the air as the balloon moves through it).
Yes. Without gravity, a hot air balloon would rise infinitely. You could never return to the ground. Balloons tend to hover more or less. The force of the air pushing up on the balloon and the force of gravity pulling down on the balloon are usually very close to one another. This keeps the balloon at a steady height, unless you heat the air in the balloon, or let it cool.
I am not sure what you mean by 'depend' (please try and make your questions clear) but if you mean does the fact that a helium filled balloon will float (or rise) depend on gravity? Then the answer is Yes. if you were to take a helium filled balloon to the space station and release it inside, it would not rise, it would behave just the same as if you released a bunch of keys.
A balloon floats in the air when the molecules inside the balloon are less dense. The gas inside a helium balloon is in essence "lighter" than the air around it, causing a buoyancy effect which makes the balloon float. This can also be seen in hot air balloons when the air molecules are heated by the propane torch and excited, thus creating a less dense environment inside of the balloon compared to outside of the balloon.
An inflated balloon floats in water because the air inside the balloon is less dense than the water. The buoyant force acting on the balloon from the water is greater than the force of gravity acting on the balloon, causing it to float.