In life, the order in which we do things is important. For example, we put on socks then shoes, rather than shoes and then socks.
The same goes for evaluating expressions in math with more than one operation. There are a number of rules which need to be followed in order to solve these problems correctly. The order goes:
Think: Remember the order of operations. Firstly, we'll evaluate what's inside the parentheses, then we'll evaluate the multiplication.
Add within the grouping symbol
Reflect: How would this be different if there were no parentheses?
Think: There are no grouping symbols in this question, so firstly we'll evaluate the multiplication and division (going from left to right), then we will evaluate the addition and subtraction (going from left to right).
Evaluating $9\times6=54$9×6=54 and $18\div6=3$18÷6=3
The two examples above used only whole numbers. However, we can work through order of operations problems with any type of real number such as integers, fractions or decimals. Let's look at some involving integers.
Think: We need to simplify the problem by using our order of operation rules.
Within the parentheses we start with $48\div\left(-12\right)=-4$48÷(−12)=−4 and $35\div5=7$35÷5=7
Now within the parentheses we can evaluate $-4-7$−4−7
Next we can evaluate the exponent $3^2=9$32=9
Perform the multiplication
Reflect: How might a number line help us to simplify this question?
Apply and extend previous understandings of operations with fractions to operations with rational numbers.
Apply properties of operations to add and subtract rational numbers, including real-world contexts.
Represent addition and subtraction on a horizontal or vertical number line.
Apply properties of operations to multiply and divide rational numbers, including real-world contexts; demonstrate that the decimal form of a rational number terminates or eventually repeats.