The physical state of K3PO4 is Aqueous, find a solubility chart if you need to find out if something is aqueous… if it's a single element and you need to find the state it quite simple as there are colour or shading legends... Hope this helped.
The oxidation number for K in KCl is +1, as alkali metals (Group 1 elements) typically have a +1 oxidation state. For Cl in KCl, the oxidation number is -1, as halogens (Group 17 elements) typically have a -1 oxidation state when they form ionic compounds.
KCl is highly soluble in water and some other solvents.
The systematic name for KCl is potassium chloride.
A potassium chloride (KCl) solution is colorless.
There are two types of atoms in KCl, potassium (K) and chlorine (Cl). The chemical formula KCl indicates that there is one atom of potassium and one atom of chlorine in each molecule of KCl.
yes KCl of potassium chloride is a good conductor of electricty, but ONLY when in an aqueous (water solution) or in molten (fused) state. It doesnot conduct in solid state.
The oxidation number for K in KCl is +1, as alkali metals (Group 1 elements) typically have a +1 oxidation state. For Cl in KCl, the oxidation number is -1, as halogens (Group 17 elements) typically have a -1 oxidation state when they form ionic compounds.
yes KCl of potassium chloride is a good conductor of electricty, but ONLY when in an aqueous (water solution) or in molten (fused) state. It doesnot conduct in solid state.
moles KCl = ( M solution ) ( V solution in L )moles KCl = ( 2.2 mol KCl / L solution ) ( 0.635 L of solution )moles KCl = 1.397 moles KCl
Yes, KCl (potassium chloride) can conduct electricity when it is dissolved in water or melted due to its dissociation into ions (K+ and Cl-) that are free to carry an electric current. However, solid KCl does not conduct electricity because its ions are not free to move.
moles KCL = ( M solution ) ( L of solution )moles KCl = ( 0.83 mol KCl / L ) ( 1.7 L ) = 1.41 moles KCl
KCl is soluble in DMF
KCl is a compound not an element.
KCl is 'potassium chloride'.
I did not know that you could get a concentration of 75.66 M KCl, but; Molarity = moles of solute/Liters of solution 75.66 M KCl = moles KCl/1 liter = 75.66 moles of KCl 75.66 moles KCl (74.55 grams/1 mole KCl) = 5640 grams KCl that is about 13 pounds of KCl in 1 liter of solution. This is why I think there is something really wrong with this problem!
Burning coal is a chemical reaction, a chemical change; but the solid reactant is transformed in gaseous products (H2O and CO2) - this is a physical change.
KCl is highly soluble in water and some other solvents.