You get the solution faster than uncrushed tablet. At times a patient can not swallow the tablet and crush it before swallowing. But it is is not recommended to crush the tablets. That is problematic in case of delayed or sustained release tablets as well as for enteric coated tablets. You have the disturbed phrmacokinetics or the drug may get destroyed by acid in the stomach.
You get the solution faster than uncrushed tablet. At times a patient can not swallow the tablet and crush it before swallowing. But it is is not recommended to crush the tablets. That is problematic in case of delayed or sustained release tablets as well as for enteric coated tablets. You have the disturbed phrmacokinetics or the drug may get destroyed by acid in the stomach.
You get the solution faster than uncrushed tablet. At times a patient can not swallow the tablet and crush it before swallowing. But it is is not recommended to crush the tablets. That is problematic in case of delayed or sustained release tablets as well as for enteric coated tablets. You have the disturbed phrmacokinetics or the drug may get destroyed by acid in the stomach.
You get the solution faster than uncrushed tablet. At times a patient can not swallow the tablet and crush it before swallowing. But it is is not recommended to crush the tablets. That is problematic in case of delayed or sustained release tablets as well as for enteric coated tablets. You have the disturbed phrmacokinetics or the drug may get destroyed by acid in the stomach.
if the table have more density, then the temperature of the water increases
I think it would increase the desolving rate
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'.
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.
More surface area is exposed.
I think it would increase the desolving rate
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'.