The balloon with krypton gas has a higher density than the balloon with argon gas.
No, a helium balloon is not a gas-liquid mixture. It is filled with helium gas, which is a pure gas. The gas fills the balloon to make it float.
The gas inside a balloon is typically lighter than air, such as helium or hydrogen, which causes the balloon to float. The pressure of the gas inside the balloon is higher than the surrounding air, which keeps the balloon inflated. Gas molecules move rapidly and bounce off the walls of the balloon, creating pressure and giving the balloon its shape.
It's a gas. The air molecules are free to move around anywhere in the balloon.
Yes, the gas inside a balloon affects its size and shape. When the balloon is inflated with gas, it expands and takes on a specific shape dictated by the pressure of the gas and the elasticity of the balloon material. Changing the amount of gas or pressure inside the balloon can alter its size and shape.
The balloon with krypton gas has a higher density than the balloon with argon gas.
When a balloon is squeezed, the volume of the balloon decreases. This causes the gas inside the balloon to be compressed, increasing the pressure of the gas.
The pressure inside a balloon is determined by factors such as the amount of air or gas in the balloon, the volume of the balloon, and the temperature of the air or gas inside. As more air or gas is added to the balloon, the pressure will increase. Conversely, if air or gas is released from the balloon, the pressure will decrease.
When the gas in a balloon is heated, its temperature increases, causing the gas molecules to move faster and collide more frequently with the walls of the balloon. This increases the pressure inside the balloon, which causes the balloon to expand as it attempts to accommodate the increased volume of gas.
No, a helium balloon is not a gas-liquid mixture. It is filled with helium gas, which is a pure gas. The gas fills the balloon to make it float.
It was made out of the light gas gas Helium.
Inside a balloon is typically filled with a gas, such as helium or air.
The gas inside a balloon is typically lighter than air, such as helium or hydrogen, which causes the balloon to float. The pressure of the gas inside the balloon is higher than the surrounding air, which keeps the balloon inflated. Gas molecules move rapidly and bounce off the walls of the balloon, creating pressure and giving the balloon its shape.
It's a gas. The air molecules are free to move around anywhere in the balloon.
Temperature affects the gas in a balloon by changing the volume of the gas inside. As temperature increases, the gas molecules move faster and take up more space, causing the balloon to expand. Conversely, a decrease in temperature causes the gas molecules to slow down and the balloon to shrink.
The pressure in a balloon is caused by the molecules of the gas inside the balloon colliding with the walls of the balloon. As the molecules collide, they exert a force on the walls, creating pressure. Additionally, the temperature of the gas inside the balloon can also affect the pressure.
Yes, the gas inside a balloon affects its size and shape. When the balloon is inflated with gas, it expands and takes on a specific shape dictated by the pressure of the gas and the elasticity of the balloon material. Changing the amount of gas or pressure inside the balloon can alter its size and shape.