You should add the same amount: -5.
To maintain balance in the equation, you should also add -5 to the right side.
That is not a correct equation. The numbers on the left equal -16, not 0. This is an equation with no solution.
All that you can do is to simplify the left hand side of the "equation" to the expression 2x + 6y + 1. Since the right hand side of the original "equation" is not given, it is, in fact an expression and cannot be solved. In any case, one linear equation in two variables cannot be solved.
First, you write the equation in its simplest form: 5x + 2 = 3x Then, you subtract 3x from both sides of the equation, so that the right side has no unknowns left: 2x + 2 = 0 Then, you subtract 2 from both sides of the equation, so that the left side has only a multiple of x left: 2x = -2 Finally, you divide both sides by 2, so that the left side is simply x: x = -1
The equation given is correctly balanced, because it contains the same numbers of each kind of atoms in the reactants as in the products.
First you need to divide !3x by 13. Whatever you do on one side of the equation you must do on the other side. So then you have to divde 6 by 13 too. then 13x divided by 13 cancels out so you are left with 6 divided by 13. so if you do your work correctly you should get the right answer.(I know it's confusing. I didn't get either at first.)
No, the equation is not balanced. On the left side there is no hydrogen (H), on the right side there is.No, the equation is not balanced. On the left side there is no hydrogen (H), on the right side there is.No, the equation is not balanced. On the left side there is no hydrogen (H), on the right side there is.No, the equation is not balanced. On the left side there is no hydrogen (H), on the right side there is.
You're asking about HCl + HClO3 -> Cl2 + O2. I'm afraid this cannot be right because hydrogen appears on the left of the equation but not on the right. Please submit a question with the correct equation.
That is not a correct equation. The numbers on the left equal -16, not 0. This is an equation with no solution.
There is no limiting reactant in that equation, it's balanced. Four hydrogens on the left, 4 on the right, 2 oxygens on the left, 2 oxygens on the right. If it was 3H2 then it would be oxygen.
There is no limiting reactant in that equation, it's balanced. Four hydrogens on the left, 4 on the right, 2 oxygens on the left, 2 oxygens on the right. If it was 3H2 then it would be oxygen.
If you solve a linear equation for "y" (that is, so that you have "y" on the left and everything else on the right), you will have it in slope-intercept form.
One important truth is that it is not balanced, because it has five chlorine atoms on the right side and only two chlorine atoms on the left. The equation should read: 2 FeCl2 + SnCl4 -> SnCl2 + 2 FeCl3. The equation also describes an oxidation-reduction reaction, in which iron ions are oxidized and tin ions are reduced.
Elemental matter can be neither created or destroyed. The some number of atoms you started with an the left side of the equation is the same number you finish with on the right side of the equation.
In the linear equation: y = -4x+4 +4 is the intercept on the y axis -4x is the negative gradient which is sloping downwards from left to right
All that you can do is to simplify the left hand side of the "equation" to the expression 2x + 6y + 1. Since the right hand side of the original "equation" is not given, it is, in fact an expression and cannot be solved. In any case, one linear equation in two variables cannot be solved.
7 + 7 + 77 = 91
The chemical equation CS2 + 2 Cl2 -> CCl4 + S2Cl2 is not balanced, because it shows four chlorine atoms on the left but six chlorine atoms on the right. The corresponding balanced equation is CS2 + 3 Cl2 -> CCl4 + S2Cl2.