How to Do Factorials

Co-authored by Jake Adams

Last Updated: November 27, 2023 Fact Checked

Factorials are commonly used when calculating probability and permutations, or possible orders of events. ^{[1]
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Research source} A factorial is denoted by a $!$ sign, and it means to multiply together all the numbers descending from the factorial number. Once you understand what a factorial is, it is simple to compute, especially with the aid of a scientific calculator.

Method 1

Method 1 of 3:

Computing a Factorial

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1
Determine the number you are computing the factorial for. A factorial is denoted by a positive integer and an exclamation point. ^{[2]
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- For example, if you need to compute the factorial for 5, you will see $5!$ .
2
Write out the sequence of numbers to be multiplied. A factorial is simply multiplying the natural numbers that descend sequentially from the factorial number, down to 1. ^{[3]
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Research source} Speaking formulaically, $n!=n(n-1)\cdot \cdot \cdot 2\cdot 1$ , where $n$ equals any positive integer. ^{[4]
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- For example, if you are computing $5!$ , you would compute $5(5-1)(5-2)(5-3)(5-4)$ or, denoted more simply: $5\cdot 4\cdot 3\cdot 2\cdot 1$ .
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3
Multiply the numbers together. You can compute a factorial quickly using a scientific calculator, which should have a $x!$ sign. If you are computing by hand, to make it easier, first look for pairs of factors that multiply to equal 10. ^{[5]
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Research source} Of course, you can also ignore the 1, since any number multiplied by 1 equals that number.
- For example, if computing $5!=5\cdot 4\cdot 3\cdot 2\cdot 1$ , disregard the 1, and first calculate $5\cdot 2=10$ . Now all you are left with is $4\cdot 3=12$ . Since $10\cdot 12=120$ , you know that $5!=120$ .

Method 2

Method 2 of 3:

Simplifying a Factorial

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1
Determine the expression you are simplifying. Often this will be stated as a fraction. ^{[6]
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Research source}
- For example, you might need to simplify ${\frac {7!}{5!\cdot 4!}}$ .
2
Write out the factors of each factorial. Since the factorial $n!$ is a factor of any factorial larger than it, to simplify, you need to look for factors that you can cancel out. ^{[7]
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Research source} This is easy to do if you write out each term.
- For example, if simplifying ${\frac {7!}{5!\cdot 4!}}$ , rewrite as ${\frac {1\cdot 2\cdot 3\cdot 4\cdot 5\cdot 6\cdot 7}{(1\cdot 2\cdot 3\cdot 4\cdot 5)\cdot (1\cdot 2\cdot 3\cdot 4)}}$
3
Cancel out any terms common to the numerator and denominator. ^{[8]
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Research source} This will simplify the numbers leftover that you need to multiply.
- For example, since $5!$ is a factor of $7!$ , you can cancel out $5!$ from the numerator and denominator:
  ${\frac {{\cancel {1\cdot 2\cdot 3\cdot 4\cdot 5}}\cdot 6\cdot 7}{({\cancel {1\cdot 2\cdot 3\cdot 4\cdot 5}})\cdot (1\cdot 2\cdot 3\cdot 4)}}={\frac {6\cdot 7}{(1\cdot 2\cdot 3\cdot 4)}}$
4
Complete the calculations. Simplify if possible. This will give you the final, simplified expression. ^{[9]
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- For example:
  ${\frac {6\cdot 7}{(1\cdot 2\cdot 3\cdot 4)}}$
  $={\frac {42}{24}}$
  $={\frac {7}{4}}$
  So, ${\frac {7!}{5!\cdot 4!}}$ simplified is ${\frac {7}{4}}$ .

Method 3

Method 3 of 3:

Doing Sample Factorial Problems

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1
Evaluate the expression 8!.
- If using a scientific calculator, hit the $8$ key, followed by the $x!$ key.
- If solving by hand, write out the factors to be multiplied:
  $8\cdot 7\cdot 6\cdot 5\cdot 4\cdot 3\cdot 2\cdot 1$
- Disregard the 1:
  $8\cdot 7\cdot 6\cdot 5\cdot 4\cdot 3\cdot 2{\cancel {\cdot 1}}$
- Pull out $5\cdot 2$ :
  $(5\cdot 2)8\cdot 7\cdot 6\cdot 4\cdot 3$
  $=(10)8\cdot 7\cdot 6\cdot 4\cdot 3$
- Group any other easily multiplied numbers first, then multiply all the products together:
  $(10)(4\cdot 3)(7\cdot 6)(8)$
  $=(10)(12)(42)(8)$
  $=(120)(336)$
  $=40320$
  So, $8!=40,320$ .
2
Simplify the expression: ${\frac {12!}{6!3!}}$ .
- Write out the factors of each factorial:
  ${\frac {1\cdot 2\cdot 3\cdot 4\cdot 5\cdot 6\cdot 7\cdot 8\cdot 9\cdot 10\cdot 11\cdot 12}{(1\cdot 2\cdot 3\cdot 4\cdot 5\cdot 6)(1\cdot 2\cdot 3)}}$
- Cancel out terms common to the numerator and denominator:
  ${\frac {{\cancel {1\cdot 2\cdot 3\cdot 4\cdot 5\cdot 6\cdot }}7\cdot 8\cdot 9\cdot 10\cdot 11\cdot 12}{({\cancel {1\cdot 2\cdot 3\cdot 4\cdot 5\cdot 6}})(1\cdot 2\cdot 3)}}={\frac {7\cdot 8\cdot 9\cdot 10\cdot 11\cdot 12}{1\cdot 2\cdot 3}}$
- Complete the calculations:
  ${\frac {7\cdot 8\cdot 9\cdot 10\cdot 11\cdot 12}{1\cdot 2\cdot 3}}$
  $={\frac {665,280}{6}}$
  $=110,880$
  So, the expression ${\frac {12!}{6!3!}}$ simplifies to $110,880$ .
3
Try the following problem. You have 6 paintings you would like to display in a row on your wall. How many different ways can you order the paintings?
- Since you are looking for different ways you can order objects, you can simply solve by finding the factorial for the number of objects.
- The number of possible arrangements for 6 paintings hung in a row can be solved by finding $6!$ .
- If using a scientific calculator, hit the $6$ key, followed by the $x!$ key.
- If solving by hand, write out the factors to be multiplied:
  $6\cdot 5\cdot 4\cdot 3\cdot 2\cdot 1$
- Disregard the 1:
  $6\cdot 5\cdot 4\cdot 3\cdot 2{\cancel {\cdot 1}}$
- Pull out $5\cdot 2$ :
  $(5\cdot 2)6\cdot 4\cdot 3$
  $=(10)6\cdot 4\cdot 3$
- Group any other easily multiplied numbers first, then multiply all the products together:
  $(10)(4\cdot 3)(6)$
  $=(10)(12)(6)$
  $=(120)(6)$
  $=720$
  So, 6 paintings hung in a row can be ordered 720 different ways.
4
Try the following problem. You have 6 paintings. You would like to display 3 of them in a row on your wall. How many different ways can you order 3 of the paintings?
- Since you have 6 different paintings, but you are only choosing 3 of them, you only need to multiply the first 3 numbers in the sequence for the factorial of 6. You can also use the formula ${\frac {n!}{(n-r)!}}$ , where $n$ equals the number of objects you are choosing from, and $r$ equals the number of objects you are using. This formula only works if you have no repetitions (an object can’t be chosen more than once), and order does matter (that is, you want to find how many different ways things can be ordered). ^{[10]
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  Research source}
- The number of possible arrangements for 3 paintings chosen from 6 and hung in a row can be solved by finding ${\frac {6!}{(6-3)!}}$ .
- Subtract the numbers in the denominator:
  ${\frac {6!}{(6-3)!}}$
  $={\frac {6!}{3!}}$
- Write the factors of each factorial:
  ${\frac {6\cdot 5\cdot 4\cdot 3\cdot 2\cdot 1}{3\cdot 2\cdot 1}}$
- Cancel out terms common to the numerator and denominator:
  ${\frac {6\cdot 5\cdot 4\cdot {\cancel {3\cdot 2\cdot 1}}}{{\cancel {3\cdot 2\cdot 1}}}}$
- Complete the calculations: $6\cdot 5\cdot 4=120$
  So, 3 paintings chosen from 6 can be ordered in 120 different ways if hung in a row.

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How can I do factorials on a TI-84 plus calculator?

Jake Adams
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Jake Adams is an academic tutor and the owner of Simplifi EDU, a Santa Monica, California based online tutoring business offering learning resources and online tutors for academic subjects K-College, SAT & ACT prep, and college admissions applications. With over 14 years of professional tutoring experience, Jake is dedicated to providing his clients the very best online tutoring experience and access to a network of excellent undergraduate and graduate-level tutors from top colleges all over the nation. Jake holds a BS in International Business and Marketing from Pepperdine University.

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Expert Answer

To calculate a factorial on a TI-84 calculator, navigate through the menu options. You can access it by pressing the "Math" key and then locating the factorial function. This is often conveniently placed in the "Favorites" menu due to its frequent use. Alternatively, you may find it under "Math" and then "Number." Explore the options in the "Number" menu, and specifically check under "NUM" for numeric calculations. Once you've located the factorial function, select it to perform the calculation.

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Is there a short cut?

Donagan

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The factorial notation is the short cut. For example, you can write 8! instead of writing 8x7x6x5x4x3x2x1 = 40,320.

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How do I calculate factorials of floating point numbers like 0.5?

Donagan

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A factorial is defined as involving integers only.

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1! =1, by all definitions.

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Factorials are used to solve combination problems, so practice this skill.

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Remember to check your work.

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How to Do Factorials

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Computing a Factorial

Simplifying a Factorial

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