Not likely. Potassium nitrate, KNO3 is the salt of a strong acid (HNO3) and a strong base (KOH). Thus, the pH of a solution of KNO3 will be very close to pH=7, depending really on the pH of the water used to make the solution. There is no way to get it to pH = 8.75. You'd need to used something like potassium acetate, the salt of a strong base and a weak acid.
I suppose that this compound is potassium carbonate, K2CO3.
As a thought experiment - suppose you mixed one liter of 1M HCl with 1 liter of 1M NaOH. The resulting solution (neglecting any density changes associated with mixing) would contain 2 liters with 1 mole of Cl- and 1 mole of Na+ with the balance being water (the H+ from the HCl and the OH- from the NaOH would just become part of the water). This would give you a 0.5 M solution of NaCl.
The bigger the particle the lesser the dissolution.
Suppose you have titration solution do you know if you have too much standard base?
Theoretically 16 moles but nitrogen monofluoride is unstable and I suppose that this solution cannot be prepared.
I suppose that this situation is not possible.
I suppose that these are synonyms.
I suppose that these are synonyms.
I suppose that this temperature is approx. 5 oC.
just add all the numbers I suppose and the number you get is the number you graph the solution. I suppose.
I suppose that this compound is potassium carbonate, K2CO3.
As a thought experiment - suppose you mixed one liter of 1M HCl with 1 liter of 1M NaOH. The resulting solution (neglecting any density changes associated with mixing) would contain 2 liters with 1 mole of Cl- and 1 mole of Na+ with the balance being water (the H+ from the HCl and the OH- from the NaOH would just become part of the water). This would give you a 0.5 M solution of NaCl.
Even though the process is endothermic, the dissolving of the solid increases the entropy enough to more than compensate for the drop in temperature.
The bigger the particle the lesser the dissolution.
I suppose that is not possible.
I suppose that you think to the dissolution of salt in water.
kmno4 is very good oxidizing agent. that means it is easily reduced by any other reagent. so it can't be considered as primary standard as its concentration changes upon free leaving