the ink diffuses faster than water because the ink has very small particles in it and it occupies space in between the molecules of water but honey is more denser than water and its Viscosity is more than water.thats why ink diffuses faster than ink
CO diffuses faster than CO2 because it is a smaller molecule
Honey dissolves faster in hot water because heat increases the kinetic energy of the water molecules, allowing them to break down the sugar molecules in honey more quickly. The higher temperature also reduces the viscosity of honey, making it easier for it to mix with the water.
Chlorine diffuses faster than argon because it is a lighter and smaller molecule. This allows chlorine to move more quickly through a medium compared to argon, which is a heavier and larger molecule.
Yes, hydrogen diffuses faster than methane. The hydrogen molecule, H2, is the smallest of all molecules and it is considerably smaller than the methane molecule, CH4. Smaller molecules move faster, and therefore diffuse faster, at any given temperature, than larger molecules.
Oxygen diffuses faster in air than in water because air has lower density and viscosity compared to water. This results in less resistance to the movement of oxygen molecules, allowing them to travel more quickly through the air compared to water. Additionally, the concentration of oxygen in air is higher than in water, further facilitating the diffusion process.
CO diffuses faster than CO2 because it is a smaller molecule
CO2 diffuses faster than O2 because it has a lower molecular weight and smaller size, allowing it to move more quickly through a medium. The exact difference in diffusion rate can vary depending on the conditions, but in general, CO2 diffuses about 20% faster than O2.
Honey dissolves faster in hot water because heat increases the kinetic energy of the water molecules, allowing them to break down the sugar molecules in honey more quickly. The higher temperature also reduces the viscosity of honey, making it easier for it to mix with the water.
Oil evaporates more slowly than honey because oil has a higher boiling point than honey. Honey contains a high percentage of water, which evaporates more quickly than the oil content.
No, the rate of diffusion of ink in water is faster than in honey. This is because honey is a thicker liquid with higher viscosity, which hinders the movement of ink molecules compared to water. As a result, ink will diffuse slower in honey than in water.
Chlorine diffuses faster than argon because it is a lighter and smaller molecule. This allows chlorine to move more quickly through a medium compared to argon, which is a heavier and larger molecule.
Yes, hydrogen diffuses faster than methane. The hydrogen molecule, H2, is the smallest of all molecules and it is considerably smaller than the methane molecule, CH4. Smaller molecules move faster, and therefore diffuse faster, at any given temperature, than larger molecules.
Carbon monoxide (CO) diffuses faster than carbon dioxide (CO2) because it has a lower molecular weight and size, allowing it to move more quickly through a medium.
Oxygen diffuses faster in air than in water because air has lower density and viscosity compared to water. This results in less resistance to the movement of oxygen molecules, allowing them to travel more quickly through the air compared to water. Additionally, the concentration of oxygen in air is higher than in water, further facilitating the diffusion process.
The rate of diffusion of a gas is inversely related to the molecular weight of that gas. The lighter the gas, the faster it diffuses. Hydrogen is the lightest of all gases having a molecular weight of only 2. Thus it diffuses faster than all others.
Oxygen gas diffuses faster than air because oxygen molecules are smaller and lighter than the molecules of air, which is mostly composed of nitrogen and oxygen. This allows oxygen molecules to move more quickly through a medium, such as air or other gases.
yes