This equation is 3 BaCl2 + 2 Ag3PO4 -> Ba3(PO4)2 + 6 AgCl.
Coefficients of molecules are adjusted.
After the sodium chloride dissolves in the water, the mixture can be filtered and the carbon residue then rinsed with clean water and allowed to dry. The sodium chloride will reform as solid crystals after the water has evaporated from the filtrate.
42,09 g silver chloride are obtained.
Copper Chloride is a light brown colour in its anhydrous (dry) state and if allowed to absorb moisture from the atmosphere turns to a bluey-green coloured dihydrate.
It is the ratio of the concentrations of products to the concentrations of reactants.
Coefficients of molecules are adjusted.
The balanced equation for the complete combustion reaction is 2 C3H7OH + 9 O2 -> 6 CO2 + 4 H2O; therefore, the coefficient for oxygen is 9. If fractional coefficients are allowed, the equation can be written with only one mole of C3H7OH; in that instance the coefficient for oxygen would be 9/2.
10 ppm
Change superscripts
At room temperature sodium chloride is a solid.
At room temperature sodium chloride is a solid.
The general word equation for complete combustion is:hydrocarbon + oxygen --> carbon dioxide + waterIt depends on WHAT you want to burn with oxygen:For alkanes like CH4 (methane, natural gas) or C8H18 (octane, petrol) the general balanced equation of complete combustion is as followsCnH2n+2 + (3n+1)/2 O2 ==> n CO2 + (2n+2)/2 H2O for each uneven(*) natural value of n(*) if n is even, then all coefficients should be doubled to prevent 'halve' values at the end.Example butane:C4H10 + (13)/2 O2 ==> 4 CO2 + (10)/2 H2Owill become:2 C4H10 + 13 O2 ==> 8 CO2 + 10 H2O(because 6.5 O2 is not allowed)
Statistical theory predicts the phenotype follows Pascal's triangle coefficients.
Statistical theory predicts the phenotype follows Pascal's triangle coefficients.
Yes.
Identity.
You're allowed to do that, yes. Whether or not it "solves" any particular equation depends on the equation itself.