An equation can be determine to have no solution or infinitely many solutions by using the square rule.
Math Confusion Differences: One rule is special, another rule is general. Relationship: Both are part of the multiplication family.Know it..?!? THEY HAVE DIFFERENT RULES!!!answered by : REYMIAN
If it were not true, it would not have become the rule!
The exact procedure to use can only be decided after you examine the equation. Different equations are attacked in different ways. All I can tell you in general is: Whatever you do to one side of the equation, you must immediately do the same to the other side. Follow this rule enough times, and you'll eventually be looking at the equation's solution.
You just have to follow the rule of quadratic functions. Example y = mx+b is the rule for linear functions. ax^2+bx+c is the rule of quadratic equation.
An equation can be determine to have no solution or infinitely many solutions by using the square rule.
Math Confusion Differences: One rule is special, another rule is general. Relationship: Both are part of the multiplication family.Know it..?!? THEY HAVE DIFFERENT RULES!!!answered by : REYMIAN
BIDMAS stands for "Brackets, Indices (or Exponents), Division and Multiplication, Addition and Subtraction." It is a rule that dictates the order in which mathematical operations should be performed in an equation.
Write an equation of 3/8×112
If it were not true, it would not have become the rule!
The exact procedure to use can only be decided after you examine the equation. Different equations are attacked in different ways. All I can tell you in general is: Whatever you do to one side of the equation, you must immediately do the same to the other side. Follow this rule enough times, and you'll eventually be looking at the equation's solution.
1=1
"and" means multiplication "or" means addition
The rule says that you can change the order of multiplication: a x b = b x a. For example, 3 x 5 is the same as 5 x 3.
You just have to follow the rule of quadratic functions. Example y = mx+b is the rule for linear functions. ax^2+bx+c is the rule of quadratic equation.
There is no rule other than that the order is unimportant for multiplication. xyz is the same as zyx and so forth. For example, 1 * 2 * 3 = 3 * 2 * 1 = 6.
Well, if you take the rule of PEMDAS (Parenthesese, Exponent, Multiplication, Division, Addition, Subtraction) and apply it to the equation you should see this: 10-3x2 = 10-6 (because 3 times 2 is 6) =4