they posses motion
does molecules move in cold water
they are attracted to each other opposites attract in tight spaces
As temperature decreases, the energy of the molecules decreases. Since the energy of the molecules is stored in their translational, vibrational, and rotational motion, their overall motion will decrease and consequently the Brownian motion that results from their motion will diminish as well.
Like all molecules, a molecule of H20 is in constant motion; 'hot' molecules move faster than 'cold' molecules. If the molecules move slowly enough the substance appears stationary to us (frozen water) and if they move quickly enough they will expand to fill their container (vapor or gas water.)
Molecules, due to constant thermal motion, enables them to move from one region to another with a velocity that depends on their mass, shape, the temperature and viscosity of the medium. Brownian motion is also a factor - this is where the bombardment of the molecules are taken into consideration (colliding with one another).
does molecules move in cold water
Brownian motion
Brownian motion.
The molecules are in a state of constant motion. The particles exert attractive force on one another. The particles possess kinetic energy due to their motion.
they are attracted to each other opposites attract in tight spaces
The observation about gases that proved molecules can move is their compressibility. This is further corroborated by the Brownian Motion theory.
They move more energetically.
heat because as it heats up the molecules they separate and start to move
As milk is a colloid,so particles must move in brownian motion(zig-zag motion)
As temperature decreases, the energy of the molecules decreases. Since the energy of the molecules is stored in their translational, vibrational, and rotational motion, their overall motion will decrease and consequently the Brownian motion that results from their motion will diminish as well.
Small particles or molecules suspended in a liquid or gas will move by what is called Brownian motion. Brownian motion is a random motion of particles resulting from collisions with other matter. Unless otherwise disturbed, Brownian motion will eventually diffuse the suspended particles evenly throughout the liquid or gas.
The motion of molecules determines