The air inside a balloon takes the shape of the balloon itself. It expands to fill the space within the balloon, conforming to its size and shape.
Because the air is coming inside the balloon.
When you inflate a balloon, the air goes inside the balloon and fills it up. The air molecules push against the walls of the balloon, causing it to expand and take on its inflated shape.
The shape of a hot air balloon, typically a rounded teardrop shape, allows it to trap and contain heated air for lift. The larger surface area at the bottom helps generate more lift due to the pressure difference with the surrounding air. A streamlined shape also minimizes air resistance during flight.
A gore on a hot air balloon is a section of lightweight fabric that makes one of the panels of the balloon. The gores are cut from flat material and stitched together to give the balloon its shape.
If there is warm air in the balloon, cooler air makes the balloon rise and if there is cold air in the balloon warmer air makes the balloon fall.
Because the air is coming inside the balloon.
The air particles inside a balloon exert pressure evenly in all directions against the walls of the balloon, causing it to inflate and take on its shape. The elasticity of the balloon material allows it to stretch in response to the pressure from the air particles, resulting in the balloon's shape.
When you blow air into a balloon, the air molecules push against the rubber walls of the balloon, causing them to stretch and expand. The pressure of the air inside the balloon is higher than the pressure outside, which causes the balloon to inflate and change its shape.
Yes, when air is blown into a balloon, its shape will change from deflated to inflated. The volume inside the balloon will increase as more air is added, causing the balloon to expand and become larger.
The shape and size of a balloon change when filled with air or water because the molecules of the substance fill the balloon and exert pressure on its walls. This pressure causes the balloon to expand and take on the shape of its contents. The volume of the balloon increases as more air or water is added, changing its size accordingly.
When you inflate a balloon, the air goes inside the balloon and fills it up. The air molecules push against the walls of the balloon, causing it to expand and take on its inflated shape.
Yes
When you blow air into a deflated balloon, the pressure from the air molecules pushes against the walls of the balloon, causing it to inflate and take on a round shape. The elastic material of the balloon allows it to expand and hold the air inside, maintaining its round shape until the pressure inside and outside the balloon equalizes.
An empty balloon and a blown-up balloon both demonstrate the property of elasticity in air. The empty balloon can expand when air is blown into it due to the elasticity of the air inside the balloon, and the blown-up balloon can return to its original shape when the air is released, also due to air's elasticity.
When you squeeze a balloon, you are applying pressure to the air inside it. This increased pressure causes the air molecules to move closer together, which changes the balloon's shape. Once you release the balloon, the air molecules move back to their original positions and the balloon returns to its original shape.
A balloon holds its shape because of the pressure exerted by the air or gas inside it against the elastic material of the balloon. The elasticity of the balloon material allows it to stretch and expand, maintaining the shape formed by the internal pressure.
A long balloon typically holds more air than a round balloon due to its shape and design, which allows for increased volume capacity. The elongated shape of a long balloon allows it to expand more when filled with air compared to a round balloon.