The volum is similar, the mass is different.
Under water they are as buoyant as each other but on land the balloon will float away and the Styrofoam will stay.
I would say an air filled balloon if you fill it with just plain air. I am basing this on the principle of osmosis and diffusion. A substance such as a gas will travel from an area of increased concentration, such as a balloon filled with helium, to an area od decreased concentration, such as the room the balloon is in. If you fill the balloon with air identicle to that in the surrounding room it negates diffusion.
The volume of the balloon decreases as the temperature decreases because the particles inside the balloon move more slowly and become more closely packed together, causing the balloon to shrink. This is because gases contract when they are cooled.
The smallest surface area for a given volume is a sphere. A spherical object such as a balloon represents the minimum energy required to maintain the volume of the material within. A balloon filled with water if stretched will increase the surface area of the balloon without altering the volume as water is non-compressible. Any alternative shape that encloses the same volume will have a larger surface area than a sphere. A perfect example is a drop of liquid in a zero gravity environment which will vibrate when intially created but will gradually slow to a stop and take the form of a perfect sphere.
A helium baloon. Water is incompressible, for most practical purposes.A helium baloon. Water is incompressible, for most practical purposes.A helium baloon. Water is incompressible, for most practical purposes.A helium baloon. Water is incompressible, for most practical purposes.
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.
The volume of the balloon is 2.75 L at a temperature of 18°C. To fully answer your question, I would need more context or information about the balloon.
The water-filled balloon will warm up and expand as the temperature of the water increases. This is because the molecules in the water gain more energy and move faster, causing the balloon to stretch. If the water is too hot, the balloon may burst due to the increased pressure from the expanding water.
When heat is applied to a balloon filled with water, the water absorbs some of the heat energy, preventing the balloon from reaching a temperature high enough to burst. The water inside the balloon also helps dissipate the heat more evenly, reducing the likelihood of a rapid increase in pressure that could cause the balloon to pop.
Below, the term "air molecules" refers to any molecules present in air; it is not meant to imply air is a homogeneous fluid.Assuming that both balloons are made of the same material, the water balloon will keep air in it the longest. This is for two main reasons:the balloon stretches more in a normally filled party balloon than in a normally filled water balloon. This implies that the internal pressure of the party balloon is greater, meaning more the air molecules inside the balloon will collide with the inside of the balloon more frequently than if the pressure was lower.the party balloon has a higher surface area to volume ratio. This means that air molecules are more likely to collide against the side of the balloon, compared to collisions other air molecules.Both of these factors would cause a party balloon to lose air faster than a water balloon.
Under water they are as buoyant as each other but on land the balloon will float away and the Styrofoam will stay.
A hydrogen balloon will deflate the fastest because molecules of hydrogen are the smallest and thus will more easily slip through the latex of the balloon. The carbon dioxide-filled balloon will deflate the slowest because these molecules are the biggest, and thus will have more trouble escaping the tiny pores in the balloon.
The density of an object is the relationship between the objects mass and volume. Air has a density of 1.0 g/cm3, so it would float in water. This is proven when you put a helium balloon in a pool or any form of water. It depends on what kind of solid however. Some solids are more or less dense than water. A balloon filled with air is not very dense because it takes up all of the volume of the object it is put in, but very little mass. The formula for density is Density=mass/volume. So, if an object has a small numerator but large denominator, the density will be small.
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.
A balloon filled with helium will likely deflate faster than a balloon filled with air because helium molecules are smaller and can escape through the balloon material more easily.
Yes, the amount of water in a balloon can affect how fast it falls. A balloon filled with more water will be heavier and experience a faster rate of descent due to the increased gravitational pull. The added weight can also influence the air resistance acting on the balloon as it falls.
As you fill a balloon with air, the rubber stretches to accommodate the increased volume of air inside. The pressure inside the balloon increases, causing it to expand and inflate. If you continue to fill it with more air, eventually the rubber may reach its limit and the balloon could burst.