law of conservation of mass....
as
" Mass is neither created nor destroyed during a chemical reaction"
so ans is....?
"Like dissolved like"
because they are!
gand marao
The mass remain unchanged; this is the law of mass conservation.
Polar substances dissolve other polar substances, and nonpolar substances dissolve other nonpolar substances. A polar substance cannot dissolve a polar substance and a nonpolar substance cannot dissolve a polar substance.
Mass and energy
Salt and Sugar dissolve in water.
The mass of reactants must be equal to the mass of products.
The mass remain unchanged; this is the law of mass conservation.
Mass is conserved. It is a law of nature.
mole ratio ofany two substances in the reaction
Substances that do not dissolve are insolubles, because they are not soluble they do not dissolve.
Yes. Basically, mass is always conserved.Yes. Basically, mass is always conserved.Yes. Basically, mass is always conserved.Yes. Basically, mass is always conserved.
The total mass of products is unchanged from the total mass of the reactants, but the masses of particular substances among the reactants or products change.
Its conserved during the combustion of anything - the mass of the products is always equal to the mass of the materials that react.
Acceleration is not conserved. Energy can not be created nor destroyed. Mass and momentum are both conserved through a set time.
Mass (Matter) and Energy is conserved during a Chemical equation
The chemistry principal of "like dissolves like," explains that polar substances will dissolve in each other. Similarly, a covalent will dissolve another covalent.
Polar substances dissolve other polar substances, and nonpolar substances dissolve other nonpolar substances. A polar substance cannot dissolve a polar substance and a nonpolar substance cannot dissolve a polar substance.
While overall ENERGY has to be conserved, MASS does not. In a nuclear reaction mass can be converted into energy so the mass of the products may be less than the mass of the reactants. The difference in mass is converted into energy as Einstein's equation describes (E=MC squared). In a chemical reaction MASS has to be conserved.