coz they suck
Methylene blue will diffuse faster than potassium permanganate. Methylene blue has a smaller molecular size and a higher diffusion rate compared to potassium permanganate.
The heat allows the particles to move more freely in the water and therefore diffuse faster. When the water is colder the particles move more slowly and therefore the rate is slower. I hope this helps, I'm practicing this concept as well.
The color of potassium permanganate disappears slowly at first because it is being consumed by the reaction with the analyte in small increments. Once most of the analyte has reacted, the color disappears faster because there are fewer molecules left to react with. This leads to a more rapid consumption of the remaining permanganate ions.
Potassium permanganate dissolves faster in boiling water because the higher temperature increases the kinetic energy of the molecules, allowing them to move more quickly and interact more easily with the compound, leading to quicker dissolution. Additionally, the bonds holding the potassium permanganate molecules together weaken at higher temperatures, promoting faster dissolution.
Potassium permanganate typically dissolves in water within a few minutes, as it is a highly water-soluble compound. Agitating the solution or using warm water can help speed up the dissolution process.
Methylene blue will diffuse faster than potassium permanganate. Methylene blue has a smaller molecular size and a higher diffusion rate compared to potassium permanganate.
potassium permanganate, KMnO4 is the smaller molecule so it will probably diffuse faster than methylene blue, C16H18N3SCl
Methylene Blue has a higher molecular weight than the compound potassium permanganate. Potassium permanganate has smaller, lighter molecules which diffuse faster than methylene blue's larger, heavier molecules.
Potassium permanganate dye diffuses more quickly through water than agar gel.The rate of diffusion depends on the molecular weight of the chemical and the characteristics of the medium through which the substance diffuses.
Potassium permanganate would diffuse faster at 100 degrees Celsius compared to 0 degrees Celsius. This is because diffusion rates increase with temperature due to higher kinetic energy of molecules, leading to increased movement and spreading out more quickly.
Potassium permanganate diffuses faster than methylene blue because it has a smaller molecular size and lower molecular weight, allowing it to move more quickly through the medium. Additionally, potassium permanganate has a more polar nature compared to methylene blue, which can also influence its diffusion rate in certain environments.
The heat allows the particles to move more freely in the water and therefore diffuse faster. When the water is colder the particles move more slowly and therefore the rate is slower. I hope this helps, I'm practicing this concept as well.
Potassium permanganate usually diffuses slower than malachite green because it is a larger molecule with a higher molecular weight. Molecular size and molecular weight can affect the rate of diffusion, with smaller molecules diffusing faster than larger ones.
Potassium permanganate dissolves quicker in hot water because the increased temperature of the water speeds up the motion of the water molecules, allowing them to interact more effectively with the permanganate crystals. This increased kinetic energy helps break down the crystal lattice structure of the potassium permanganate, leading to faster dissolution.
The intermolecular force of attraction between the particles of solid is greater than liquid and due to this minimum space is found between the particles of solid. That's why liquids diffuse much faster than solids.
Cl2 has a molar mass of about 71 g/moleArgon has molar mass of about 40 g/mole Thus, Argon will diffuse faster than Cl2 gas, or put another way, Cl2 will diffuse slower than argon.
The color of potassium permanganate disappears slowly at first because it is being consumed by the reaction with the analyte in small increments. Once most of the analyte has reacted, the color disappears faster because there are fewer molecules left to react with. This leads to a more rapid consumption of the remaining permanganate ions.