Yes, particles are more soluble with the rise in temp. Eg:adding sugar to hot water gets dissolved faster than to cold water
How do the following factors affect the rate of dissolving for temperature change
Generally, it comes down to the basic laws of chemistry. As the temperature increases, particles become more 'excited' and move quicker, therefore increasing the rate of photosynthesis. The opposite happens when temperature decreased, the particles move slower and therefore decreasing the rate of photosynthesis.
Some factors are: low temperature, low pressure, low concentration of reactants, no stirring, coarse particles, etc.
Decrease because particles will move slower causing less collisions.
In microscopic scale such as gas particles, more energy is more to particles kinetics, it will move faster and bounce on surface at faster rate. It will resulted to higher pressure or more volume from expansion or the increase of temperature or all of 3 combined.
The rate will increase as the temperature increases. The dame is true for the opposite.
How do the following factors affect the rate of dissolving for temperature change
rate of collisions between particles. average velocity of the particles.
Concentration of molecules, size of particles and temperature
Generally, it comes down to the basic laws of chemistry. As the temperature increases, particles become more 'excited' and move quicker, therefore increasing the rate of photosynthesis. The opposite happens when temperature decreased, the particles move slower and therefore decreasing the rate of photosynthesis.
Some factors are: low temperature, low pressure, low concentration of reactants, no stirring, coarse particles, etc.
The rate of diffusion increases with temperature. The rate of diffusion also increases with the concentration gradient and the surface area.
A change in temperature can change the rate of physical or chemical change.
In microscopic scale such as gas particles, more energy is more to particles kinetics, it will move faster and bounce on surface at faster rate. It will resulted to higher pressure or more volume from expansion or the increase of temperature or all of 3 combined.
Why The Temperature Stays The SameDuring a phase change, the average energy of the particles remains the same, but, the particles are rearranging themselves. Particles become less organized as their energy increases, so the substance changes from a solid to a liquid to a gas. As the energy of the particles becomes less, the particles rearrange themselves more orderly, so a gas changes to a liquid and then to a solid. The total energy of the particles changes - by increasing or decreasing, because the particles are not increasing or decreasing their speed, just their arrangement. The average energy doesn't change. The energy change is hidden from a thermometer and is called 'hidden heat' or 'latent heat'.
The answer depends on the rate of WHAT! The rate of water boiling, for example, will increase with temperature but the rate of ice forming will decrease.
Decrease because particles will move slower causing less collisions.