**Slope** **and** **Y-Intercept** **Calculator** Step 1: Enter the linear equation you want to find the **slope** **and** **y-intercept** for into the editor. The **slope** **and** **y-intercept** **calculator** takes a linear equation and allows you to calculate the **slope** **and** **y-intercept** for the equation. Clearly, we can identify both the **slope and y y** -**intercept**. The **y y** -**intercept** is simply b = - 2 b = −2 or \left ( {0,2} \right) (0,2) while the **slope** is \large {m = {3 \over 4}} m = 43 . Since the **slope** is positive, we expect the line to be increasing when viewed from left to right. Step 1: Let’s plot the first point using the information. I can solve equations and inequalities in one variable Really clear math lessons (pre-algebra, algebra, precalculus), cool math games, online graphing **calculators**, geometry art, fractals, polyhedra, parents and teachers areas too 7 Piecewise Functions 2 Two Acres by. The procedure to use x **and y**-**intercept calculator** is as follows: Step 1: Enter the coefficients of the straight.

**y-intercept**using the

**y**

**intercept**

**calculator**: Step 1: Go to Cuemath's online

**y**

**intercept**

**calculator**. Step 2: Enter the coefficients in the given input boxes. Step 3: Click on the "Calculate" button to find the value of the

**y-intercept**. Step 4: Click on the "Reset" button to clear the. English. English. Español. 日本語. 简体中文. 繁體中文. We multiply the

**slope**by x, which is 1.069*7=7.489. We then subtract this value from

**y**, which is 12-7.489= 4.511. So our final regression line is,

**y**= 1.069x + 4.511. To use this

**calculator**, a user simply enters in the x

**and y**value pairs. A user can enter anywhere from 3 to 10 (x,

**y**) value pairs. After, the user clicks the '

**Calculate**' and the.