One of the five particle theory's of matter states that particles move faster at a higher temperature. When you put salt in warm water, it dissolves much faster then when you put salt in cold water because the higher the temperature the faster the salt will dissolve in the water.
Well, as the temperature of water is increased, the more solubility it should have. (this does not always happen, though) This is from the gasses in the heated water spreading apart, which allows more solute to be dissovled. :)
As temperature increases, the motion of particles also increases. As motion increases, the particles become more soluble.
Some things:Agitation: As in, the number of collisions within the molecules. This is why we stir when we are dissolving something.. more collision will increase rate.Temperature: The higher the temperature, the more energy the solution will have, hence more space between the molecules because they move around so much. This means more kinetic energy.Surface area: Meaning the area of contact within the solute and the solvent. More surface area = faster dissolving.
The effect of temperature change to the amount of heat content of the substance is called heat transfer. As heat increases, the temperature decreases.
it is the same
Gravity affects the string by applying a force (dm).(g) on every particle of mass dm. Thereby, it produces a damping effect on the string.
Yes Temperature does effect the movement of molecules and atoms. This is because the warmer the temperature is the easier the molecules and atoms can move, while on the contrary, the colder the temperature is the more difficult it is for the molecules and atoms move around
The more a solution is agitated, the faster the rate of the solution The smaller the particle size, the faster it will dissolve The higher the temperature, the faster rate of dissolving
Stirring and increasing temperature increase the dissolving rate.
Temperature afftects the solubility...see Henrys Law and chemical kinetics
it makes it faster to dissolve
Particle theory of light can explain Photoelectric Effect,Compton effect,Pair production.... wave theory of light can explain interference,refraction...
No. To explain the photoelectric effect, you have to think of light as a particle, not a wave. The fact that light can be both a wave and a particle is part of quantum mechanics, not classical physics.
The polarity of solute and solvent, the concentration, the temperature.
the particle nature of light
the particle nature of light
The particle nature of light
If you mean melting... different metals and materials have different temperatures that they melt at, called their Melting Point.
The Ludwig-Soret effect is the occurence of particle diffusion stream due to a temperature gradient. rw