When the air inside a hot air balloon is heated, the molecules gain energy and begin to move faster, causing the air to expand and become less dense than the surrounding cooler air. This lower density air in the balloon then creates lift, allowing the balloon to rise.
Adding more air molecules to a balloon increases the number of collisions between the molecules and the balloon walls, thereby increasing the pressure inside the balloon. This increase in air pressure causes the balloon to expand until the pressure inside matches the pressure outside.
In cold temperatures, the air inside a balloon cools and contracts, causing the balloon to deflate or shrink. This happens because the molecules in the air lose energy and move closer together, reducing the pressure inside the balloon.
When air inside a balloon is heated, the molecules move faster, causing the air to expand and the balloon to inflate. The total mass of the air inside the balloon remains the same, but the density of the air decreases as it becomes less compact.
When heat is added to air inside a balloon, the air molecules move faster and spread out, causing the balloon to expand or inflate. This is due to the increase in pressure inside the balloon as the air molecules gain kinetic energy from the heat.
The volume of air inside a balloon decreases as the balloon is deflated or contracts. This is because the space available for the air to occupy shrinks as the balloon's surface area reduces, causing the air molecules to be more densely packed.
Adding more air molecules to a balloon increases the number of collisions between the molecules and the balloon walls, thereby increasing the pressure inside the balloon. This increase in air pressure causes the balloon to expand until the pressure inside matches the pressure outside.
In cold temperatures, the air inside a balloon cools and contracts, causing the balloon to deflate or shrink. This happens because the molecules in the air lose energy and move closer together, reducing the pressure inside the balloon.
When air inside a balloon is heated, the molecules move faster, causing the air to expand and the balloon to inflate. The total mass of the air inside the balloon remains the same, but the density of the air decreases as it becomes less compact.
When heat is added to air inside a balloon, the air molecules move faster and spread out, causing the balloon to expand or inflate. This is due to the increase in pressure inside the balloon as the air molecules gain kinetic energy from the heat.
The volume of air inside a balloon decreases as the balloon is deflated or contracts. This is because the space available for the air to occupy shrinks as the balloon's surface area reduces, causing the air molecules to be more densely packed.
The pressure inside a balloon is created by the air molecules contained within the balloon pushing against the walls of the balloon. As more air is blown into the balloon, the number of air molecules increases, leading to a higher pressure inside the balloon.
When you fill a balloon with air, the air molecules displace the surrounding space inside the balloon, causing the balloon to expand and stretch. The pressure of the air inside the balloon exceeds the pressure outside, creating tension in the balloon material, which keeps it inflated.
When the air inside a balloon is heated, the molecules in the air gain kinetic energy and move faster, causing the air inside the balloon to expand. This expansion increases the pressure inside the balloon, making it inflate and potentially burst if the pressure becomes too high.
When a balloon is heated, the air inside the balloon expands and the molecules move faster, increasing their kinetic energy. This results in a decrease in mass density, as the molecules are more spread out. However, the total mass of the air inside the balloon remains the same.
When a balloon is exposed to heat, the air inside the balloon expands and the molecules move faster, causing the balloon to inflate. If the heat is excessive, the balloon may burst due to the increased pressure inside.
When the air inside a balloon is heated, its density decreases. This happens because the air molecules gain energy and move farther apart, resulting in a decrease in the air's density.
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.