Crushing sugar into smaller particulates INCREASES the rate at which the sugar will dissolve because the water can act on a larger overall surface area.
Crushing sugar into smaller particulates INCREASES the rate at which the sugar will dissolve because the water can act on a larger overall surface area.
When the dissolving rate equals the rate at which molecules comes out of solution the solution is in 'equilibrium'.
1. Stir or shake the solution 2. Expose more surface by crushing a solid solute. 3. Warm the solution.
acidic buffers increase pH as temperature increases, basic buffers decrease pH as temperature increases I am still searching for the reason.
Tyndall effect doesn't exist in a sugar solution.
Crushing sugar into smaller particulates INCREASES the rate at which the sugar will dissolve because the water can act on a larger overall surface area.
More surface area is exposed.
if the temperature of the water is hot, then the sugars will dissolve faster because hot temperature increases solution rate.
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
If i dont care about science then im not going to do my work because i hate it
When the dissolving rate equals the rate at which molecules comes out of solution the solution is in 'equilibrium'.
A unit rate is a ratio: it does not have a solution!
If i dont care about science then im not going to do my work because i hate it
1. Stir or shake the solution 2. Expose more surface by crushing a solid solute. 3. Warm the solution.
When the dissolving rate equals the rate at which molecules comes out of solution the solution is in 'equilibrium'.
Drowning and crushing with a possible side effect of death
The rate of reaction basically depends on the product of charges of ions present in a solution. Since the compounds dissociate in a solution and forms cations and anions, so their product matters a lot. If the product of charges is positive ( i.e. one ion is +1 and other is +4 = +4 ), then the rate of reaction will increase automatically, higher the product faster will be the rate. Similarly, if the product of ions present in a solution is negative ( i.e. one ion is +1 and other is -3 = -3) then the rate of reaction will decrease. For those reactions in which neutral species are present and for which the product of charges will be zero, there will be no effect on the rate of reaction.