Yes, cardboard can absorb water because it is made of paper fibers which have the ability to soak up liquids. If exposed to water for a prolonged period, cardboard can become soggy and lose its structural integrity.
Silver does not react with water at room temperature. However, over time, silver may react with water and oxygen in the air to form a thin layer of tarnish.
Nickel does not react with water at room temperature or with cold water. However, it does react with steam to form nickel oxide and hydrogen gas.
Water does not react with vinegar because vinegar is a diluted form of acetic acid dissolved in water. The acetic acid in vinegar can react with certain substances but not with water itself.
Hydrogen does not react with water. In an acid, hydrogen can react to form hydrogen gas and a salt.
You get a peice of cardboard fill a half cup with water and push the cardboard on top and turn it upside down
Cardboard will sink in water because it absorbs water quickly, making it denser than water.
Water can help facilitate the decomposition of cardboard faster compared to earth, as water can break down the bonds holding the cardboard molecules together. Microorganisms in soil can also aid in cardboard decomposition, but water plays a more direct role in speeding up the process.
Water
Yes, cardboard can absorb water because it is made of paper fibers which have the ability to soak up liquids. If exposed to water for a prolonged period, cardboard can become soggy and lose its structural integrity.
Cardboard floats because it is less dense than water. When placed in water, the upward buoyant force is greater than the downward force of gravity, causing the cardboard to float.
DDT doesn't react with water.
Californium don't react with water.
Curium doesn't react with water.
Protactinium react with water vapors.
The cardboard did not fall to the ground when the glass of water was tipped upside down because the air pressure on the top surface of the cardboard was greater than the water pressure holding it down. This created a force that pushed the cardboard against the glass and prevented it from falling.
According to Newton's Law of Inertia, the coin on the cardboard would tend to stay at rest when the cardboard is pulled slowly due to its inertia. As you pull the cardboard, the coin will initially stay in place relative to the glass of water due to its inertia. However, when the force increases or the cardboard is pulled quickly, the coin will slide off the cardboard due to the force exerted on it.