Doesn't matter to the balloon. The amount to be lifted is identical and in this case air resistance is not a factor.
A hydrogen balloon will find it easiest to lift feathers, followed by water, and most difficult to lift steel. Feathers have a low density, making them lighter, while water is denser but still lighter than steel. Steel is significantly denser and heavier, requiring more lift from the balloon.
Steel is heavier than feathers. This is because steel is a denser material, meaning that a given volume of steel will weigh more than the same volume of feathers.
Iron.
Stainless steel is generally easier to keep clean than satin steel because it is more resistant to fingerprints, smudges, and watermarks. Satin steel has a matte finish that can show smudges and marks more easily, requiring more frequent cleaning and maintenance.
Carbon dioxide gas is formed in steel cans when storing fruit. This occurs due to the respiration process of the fruit, where oxygen is consumed and carbon dioxide is produced in the sealed environment of the can.
Steel does not have water in it. any moisture present in the manufacturing process is evaporated off or broken down to form hydrogen which can then be left in the steel causing hydrogen cracking.
Steel is heavier than feathers. This is because steel is a denser material, meaning that a given volume of steel will weigh more than the same volume of feathers.
Both are equally easy to lift since they both weigh 1 kilogram. The difference lies in the volume and density of the objects. The steel would be denser and therefore smaller in volume compared to the feathers.
Hydrogen can dissolve into the lattice structure of carbon steel to some extent. The solubility of hydrogen in carbon steel depends on factors such as temperature, pressure, and the presence of defects in the steel's crystal structure. Excessive hydrogen solubility can lead to hydrogen embrittlement, reducing the mechanical properties of the steel.
Density. The mass of a pound of any two materials on Earth is always the same. However, a pound of steel has far less volume for a pound than a pound of feathers. Thus, steel is far, far denser than feathers are.
Hydrogen embrittlement occurs in steel when atomic hydrogen diffuses into the steel material, causing it to become brittle. This happens when hydrogen atoms are absorbed during processing or service conditions, leading to the formation of hydrides that weaken the steel's structure. Factors such as high-stress levels, exposure to acidic environments, and certain manufacturing processes can contribute to hydrogen embrittlement in steel.
the material used is called sandpaper
Low temperature carbon steel is designed to withstand lower temperatures without becoming brittle, while low hydrogen steel is designed to minimize hydrogen-induced cracking during welding by reducing the hydrogen content in the steel. Essentially, low temperature steel focuses on the material's behavior under low temperatures, while low hydrogen steel focuses on preventing specific types of cracking during welding.
are you being serious, if you are no, 15 is not heavier than 18 pounds of feathers.
steel copper aluminum
no feathers do cause Jacob Davis said so
The acid in the fruit reacts with the steel of the can to make hydrogen gas. This defect is known as a 'hydrogen swell'.
yes