Density of any balloon depends on the material of the balloon and how much the balloon is filled.
Density is inversely related to the flight of a hot air balloon. As the density of the air inside the balloon decreases, it becomes less dense than the surrounding air, causing the balloon to rise. This is because the buoyant force on the balloon is greater than its weight.
The density of a balloon will decrease when the amount of air inside it decreases, causing it to become less dense compared to its surrounding environment. This decrease in density may happen if air leaks out of the balloon or if the balloon is subjected to a higher altitude where the air pressure is lower.
No it decreases
The balloon with krypton gas has a higher density than the balloon with argon gas.
Yes, the density of the air in the balloon decreases when it is in colder air. This is because cold air is more dense than hot air, so as the air balloon cools down, the air molecules become more closely packed together, leading to an increase in density within the balloon.
If the volume of the balloon doubles while the mass of helium remains the same, the density of helium inside the balloon would decrease by half. Density is calculated as mass divided by volume, so if volume doubles and mass stays the same, the density will decrease.
The density of a hot air balloon is the greatest when the air inside the balloon is at its maximum temperature. As the air inside the balloon is heated, it expands and becomes less dense compared to the surrounding air, causing the balloon to rise.
No. The volume of the helium will change as it expands the balloon due to the increase in temperature. The density of an element never changes. The reason for that is because density is just a fancy way of saying 'The atoms are this far apart' in the equation mass/volume = density.
you would have to deacrease the density. By doing so, you can float. I don't know bout constant level, but because the air in the balloon is more dense than outside air, the balloon will sink in air. p.s. i know you s.j.v students are probably reading this :)
A hot air balloon demonstrates the concepts of buoyancy and density by using hot air to create a lower density inside the balloon compared to the surrounding air. This lower density causes the balloon to float, as the buoyant force from the surrounding air pushing up on the balloon is greater than the force of gravity pulling it down. This is because the hot air inside the balloon is less dense than the cooler air outside, creating a pressure difference that causes the balloon to rise.
To float in air, the density of the balloon (divide the combined mass of balloon + contents by its volume) must be LESS than that of the same volume of air. If the gas inside the balloon has a greater density than air, the combined object (balloon + contents) won't have less density than air, either.
No, the mass of the deflated balloon is the same as the mass of the inflated balloon, as the only thing that changes is the volume and density of the air inside the balloon.