Table of Contents

## What is nine increased by a number?

Algebraic Expressions With Example Problems and Interactive Exercises

Phrase | Expression |
---|---|

nine increased by a number x | 9 + x |

fourteen decreased by a number p | 14 – p |

seven less than a number t | t – 7 |

the product of 9 and a number n | 9 · n or 9n |

## What is a expression in maths?

An expression is a set of terms combined using the operations +, – , x or. , for example 4 x − 3 or x 2 – x y + 17 . An equation states that two expressions are equal in value, for example. 4 b − 2 = 6 . An identity is a statement that is true no matter what values are chosen, for example.

**What are written expressions?**

What is it? Written expression refers to a highly complex, cognitive, self-directed process. Higher order components include planning, translating (drafting), reviewing and revising.

**Which is the simplest way to write an expression?**

For example, take this expression: If you simplified it by combining the terms until there was nothing left to do, the expression would look like this: In other words, 15 is the simplest way to write 4 + 6 + 5. Both versions of the expression equal the exact same amount; one is just much shorter.

### How do you use the equivalent expression calculator?

The procedure to use the equivalent expression calculator is as follows: Step 1: Enter an algebraic expression in the input field. Step 2: Now click the button “Submit” to get the equivalent expression. Step 3: Finally, the equivalent expression for the given algebraic expression will be displayed

### What do you call the way you write algebra expressions?

It’s not that difficult to solve once you know how to do it, but it does include a few symbols that are common in algebra but not in more basic math. The way you write algebra expressions is called algebraic notation. While it might look tricky at first, algebraic notation isn’t that complicated.

**Is the value of X in the expression equal to the same amount?**

Each x in this expression is equal to the same amount. The other variable, y, may be equal to a different amount. Just because you find the value for a variable in one problem doesn’t mean the variable will have the same value in a different problem.