It gives no information about the amounts of reactants or products.
CCl4 is molecular formula.
Balanced and unbalanced chemical equations have the same elements on both sides, they have just been recombinded to form new products from the reactants.
CO is both an empirical formula and a molecular formula.
No, but both describe the same chemical reaction.
Photosynthesis 6CO2 + 12 H2O = C6H12O6 + 6H2O + 6O2 CellulaarRespiration C6H12O6 + 6O2 = 6CO2 + 6H2O + Energy
Functions and linear equations are the same in that they both deal with x and y coordinates and points on a graph but have differences in limitations, appearance and purpose. Often, functions give you the value of either x or y, but linear equations ask to solve for both x and y.
Murder is top of the list. It typically does not have a statute of limitations associated with it. Rape is usually second. Both can rate the death penalty.
Murder is top of the list. It typically does not have a statute of limitations associated with it. Rape is usually second. Both can rate the death penalty.
Graph both equations on the same graph. Where they intersect is the solution to the system of equations
Equations are never parallel, but their graphs may be. -- Write both equations in "standard" form [ y = mx + b ] -- The graphs of the two equations are parallel if 'm' is the same number in both of them.
Tin and Lead are both metals with oxidation numbers of 2+ and 4+, so the two equations for Lead (Pb) are 2Pb + O2 ---> 2PbO and Pb + O2 ---> PbO2 The equations for Tin (Sn) look the same ... just substitute Sn where you see Pb.
Inequalities and equations are both the same because they are both mathematical expression and they both use the same steps EXCEPT for the end. Inequalities and equations are both different because equations have an equal sign, the answer is not an interval, and the answer is a specific answer. Not a range. While inequalities don't have an equal sign, its answer is an interval, and it's answer is in a range.
The solution of a system of linear equations is a pair of values that make both of the equations true.
No, linear equations don't have x2. Equation with x and y are usually linear equations. Equations with either x2 or y2 (but never both) are usually quadratic equations.
Yes you can, if the solution or solutions is/are real. -- Draw the graphs of both equations on the same coordinate space on the same piece of graph paper. -- Any point that's on both graphs, i.e. where they cross, is a solution of the system of equations. -- If both equations are linear, then there can't be more than one such point.
Without an equality sign the given terms can't be considered as equations but if you mean -2x = 10 and -5x = 25 then they are both equivalent inasmuch that the value of x in both equations works out as -5
Graph the equations and see where they meet. Substitute back into both equations