Air is transferred from your lungs into the balloon, where it diffuses inside the balloon and due to the elastic tendancies causes it to expand from the pressure of the increasing amount of air you blow in.
When a balloon is blown up, its weight remains the same. The air inside the balloon has mass, but it is not the weight of the balloon itself that changes. The buoyant force of the surrounding air supports the weight of the balloon.
When a balloon is blown up, it becomes lighter because the air inside the balloon is less dense than the surrounding air. This causes the balloon to float or rise upward, due to the principle of buoyancy.
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 a balloon is blown up, its weight remains the same. The weight of the balloon is determined by the amount of air it contains and the material it is made of. Blowing up a balloon simply changes its volume, not its weight.
When air is blown into a balloon, it fills the space inside. The pressure of the air increases, causing the balloon to expand. If the balloon is sealed, the air inside remains trapped, making the balloon float or hover depending on the amount of air inside.
When a balloon is blown up, its weight remains the same. The air inside the balloon has mass, but it is not the weight of the balloon itself that changes. The buoyant force of the surrounding air supports the weight of the balloon.
When a balloon is blown up, it becomes lighter because the air inside the balloon is less dense than the surrounding air. This causes the balloon to float or rise upward, due to the principle of buoyancy.
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 a balloon is blown up, its weight remains the same. The weight of the balloon is determined by the amount of air it contains and the material it is made of. Blowing up a balloon simply changes its volume, not its weight.
When air is blown into a balloon, it fills the space inside. The pressure of the air increases, causing the balloon to expand. If the balloon is sealed, the air inside remains trapped, making the balloon float or hover depending on the amount of air inside.
A blown up balloon is weightless because the whole thing is just air and air has no weight
A balloon can be blown up by expanding the air inside it. When you blow air into the balloon, the pressure increases, causing the rubber to stretch and the balloon to inflate. The elastic properties of the rubber allow it to expand and hold the air inside the balloon.
6eez
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.
When the air rushes out of the balloon, it releases heat energy, which results in a decrease in enthalpy within the balloon. This process is known as an exothermic reaction, where energy is released to the surroundings.
Air, or oxygen and nitrogen is matter. All matter has mass. So the answer to this question is yes, air in a blown up balloon or any air does have mass.
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