Excel 2007

Creating Complex Formulas

Introduction

Complex Formulas Excel is a spreadsheet application and is intended to be used to calculate and analyze numerical information such as household budgets, company finances, and inventory. To do this, you need to understand formulas .

In this lesson, we’ll discuss complex formulas that use multiple mathematical operators, as well as those that use absolute and relative references .

Complex formulas

Complex formulas defined

Simple formulas have one mathematical operation. Complex formulas involve more than one mathematical operation.

Simple formula: =2+2
Complex formula: =2+2*8

To calculate complex formulas correctly, you must perform certain operations before others. This is defined in the order of operations .

The order of operations

The order of mathematical operations is important. If you enter a formula that contains several operations, Excel knows to work those operations in a specific order. The order of operations is:

  1. Operations enclosed in parenthesis
  2. Exponential calculations (to the power of)
  3. Multiplication and division, whichever comes first
  4. Addition and subtraction, whichever comes first

A mnemonic that can help you remember this is P lease E xcuse M y D ear A unt S ally (P.E.M.D.A.S).

Example 1

Using this order, let's see how the formula 20/(8-4)*8-2 is calculated in the following breakdown:

Formula Breakdown

Example 2

3+3*2=?

Is the answer 12 or 9? Well, if you calculated in the order in which the numbers appear, 3+3*2, you'd get the wrong answer: 12. You must follow the order of operations to get the correct answer.

To calculate the correct answer:

  1. Calculate 3*2 first because multiplication comes before addition in the order of operations. The answer is 6.
  2. Add the answer obtained in step 1, which is 6, to the number 3 that opened the equation. In other words, add 3 + 6.
  3. The answer is 9.

Complex formulas

Before moving on, let's explore some more formulas to make sure you understand the order of operations by which Excel calculates the answer.

4*2/4 Multiply 4*2 before performing the division operation because the multiplication sign comes before the division sign. The answer is 2.

4/2*4 Divide 4 by 2 before performing the multiplication operation because the division sign comes before the multiplication sign. The answer is 8.

4/(2*4) Perform the operation in parentheses (2*4) first, and divide 4 by this result. The answer is 0.5.

4-2*4 Multiply 2*4 before performing the subtraction operation because the multiplication sign is of a higher order than the subtraction sign. The answer is -4.

Creating complex formulas

Excel automatically follows a standard order of operations in a complex formula. If you want a certain portion of the formula to be calculated first, put it in parentheses.

Example of how to write a complex formula:

  • Click the cell where you want the formula result to appear. In this example, H6.
  • Type the equals sign (=) to let Excel know a formula is being defined.
  • Type an open parenthesis, or (.
  • Click on the first cell to be included in the formula (G6, for example).
  • Type the addition sign (+) to let Excel know that an add operation is to be performed.
  • Click on the second cell in the formula (G7, for example).
  • Type a closed parentheses ).
Sample Formula
  • Type the next mathematical operator, or the division symbol (/) , to let Excel know a division operation is to be performed.
  • Type an open parenthesis, or (.
  • Click on the third cell to be included in the formula (D6, for example).
  • Type the addition sign (+) to let Excel know that an add operation is to be performed.
  • Click on the fourth cell to be included in formula (D7, for example).
  • Type a closed parentheses ).
Sample Formula
  • Important: Press Enter , or click the Enter button on the Formula bar. This step ends the formula.

To show fewer decimal places, you can click the Decrease Decimal place command on the Home tab.

Excel will not always tell you if your formula contains an error, so it's up to you to check all of your formulas. To learn how to do this, you can read the Double-Check Your Formulas lesson from our Excel Formulas tutorial.

What is an absolute reference?

In earlier lessons, we saw how cell references in formulas automatically adjust to new locations when the formula is pasted into different cells. This is called a relative reference .

Relative Reference

Sometimes when you copy and paste a formula, you don't want one or more cell references to change. An absolute reference solves this problem. Absolute cell references in a formula always refer to the same cell or cell range in a formula. If a formula is copied to a different location, the absolute reference remains the same.

An absolute reference is designated in the formula by the addition of a dollar sign ($) . It can precede the column reference or the row reference, or both. Examples of absolute referencing include:

Absolute Reference Chart

To create an absolute reference:

  • Select the cell where you wish to write the formula (in this example, H2).
  • Type the equals sign (=) to let Excel know a formula is being defined.
  • Click on the first cell to be included in the formula (F2, for example).
  • Enter a mathematical operator (use the multiplication symbol for this example).
  • Click on the second cell in the formula (C2, for example).
  • Add a $ sign before the C and a $ sign before the 2 to create an absolute reference.
Absolute Reference
  • Copy the formula into H3. The new formula should read =F3*$C$2. The F2 reference changed to F3 because it is a relative reference, but C2 remained constant because you created an absolute reference by inserting the dollar signs.
Absolute Reference

When writing a formula, you can press the F4 key on your keyboard to switch between relative and absolute cell references. This is an easy way to quickly insert an absolute reference.

Challenge!

Use the Inventory or any Excel workbook you choose to complete this challenge.

  • Create at least one complex formula that uses the addition and division operations.
  • Create at least one complex formula that uses parentheses and a multiplication operation.
  • Create a formula that uses an absolute reference.