Yes, the size of molecules can affect a liquid's resistance. Larger molecules tend to have higher viscosity, which is a measure of a liquid's resistance to flow. This is because larger molecules have more intermolecular forces that hinder their movement.
Viscosity is measured by what's called a "marsh funnel cup". It is determined by the temperature of the fluid and the ambient temperature, as well as the thickness in which a fluid moves and the specific gravity has some bearing on it, too. So all of these variables determine what each liquid's viscosity is.
The three main factors that affect the movement of molecules in electrophoresis are the strength of the electric field applied, the size and charge of the molecules being separated, and the matrix or medium through which the molecules are moving.
Gel electrophoresis separates molecules based on their size and electrical charge. In this technique, an electric field is applied to move molecules through a gel matrix. Smaller molecules move faster and travel further in the gel than larger molecules due to less resistance, while the charge of the molecules also affects their movement direction.
No, the size of the atom does not affect the size of a mole. A mole is a unit of measurement in chemistry that represents a specific number of entities (Avogadro's number, 6.022 x 10^23) regardless of the size or mass of the individual atoms or molecules.
Different hydrocarbons have different boiling points (and melting points) depending on their molecular size: smaller molecules boil at lower temperatures, larger molecules boil at higher temperatures. This fact is used to refine petroleum by fractional distillation. Methane has very small molecules and is a gas. Gasoline, diesel fuel, and kerosene have medium size molecules and are liquids. Asphalt has large molecules and is solid.
Friction or any other resistance.
The size of the molecules.
The internal composition or material of an object does not affect air resistance. Air resistance is mainly determined by an object's size, shape, and speed when moving through air.
shape, size, and speed
Different liquids have different freezing points due to their molecular structure and composition. Factors such as intermolecular forces, size and shape of molecules, and presence of impurities can all affect the freezing point of a liquid. This is why some liquids freeze at higher or lower temperatures than others.
Viscosity is measured by what's called a "marsh funnel cup". It is determined by the temperature of the fluid and the ambient temperature, as well as the thickness in which a fluid moves and the specific gravity has some bearing on it, too. So all of these variables determine what each liquid's viscosity is.
The three main factors that affect the movement of molecules in electrophoresis are the strength of the electric field applied, the size and charge of the molecules being separated, and the matrix or medium through which the molecules are moving.
shape, size, and speed
The bulb has resistance which then gets smal
because the weight of your wheels and the size has wind Resistance on your car
The feature characteristic of an object that does not affect air resistance is the object's mass. Air resistance is determined by the object's shape, size, and speed through the air, but not its mass.
I do not know.Perhaps it is caused by a sudden acceleration of wind resistance caused by the outer feedings lead by a major pushback from air against gravity.