**How To Work Out X And Y Intercepts?** To find the x-intercept we set y = 0 and solve the equation for x. This is because when y=0 the line crosses the x-axis. When an equation is not in y = mx + b form, we can solve for the intercepts by plugging in 0 as needed and solving for the remaining variable. To find y-intercept: set x = 0 and solve for y.

**How do you find the x and y-intercepts of two variables?** https://www.youtube.com/watch?v=ekM9-9adl2E

**How do you find the x and y-intercepts on a graph?** Since two points determine any line, we can graph lines using the x- and y-intercepts. To find the x-intercept, set y=0 and solve for x. To find the y-intercept, set x=0 and solve for y. This method of finding x- and y-intercepts will be used throughout our study of algebra because it works for any equation.

## Related Questions

### How do you know how many X intercepts there are?

The general rule for finding the x-intercept or intercepts of any function is to let y=0 and solve for x.

### How do you find the x-intercept of multiple X?

### How do you find the x intercepts for your graph?

You can always find the X-intercept by setting Y to 0 in the equation and solve for X. Similarly, you can always find the Y-intercept by setting X to 0 in the equation and solve for Y.

### How do you find the x and y intercepts of two variables?

– To determine the x-intercept, we set y equal to zero and solve for x. Similarly, to determine the y-intercept, we set x equal to zero and solve for y.

– To find the x-intercept, set y = 0 \displaystyle y=0 y=0.

– To find the y-intercept, set x = 0 \displaystyle x=0 x=0.

### How do you find the x-intercept of multiple X?

The general rule for finding the x-intercept or intercepts of any function is to let y=0 and solve for x.

### How do you find the x and y-intercepts of an equation?

To find the x-intercept we set y = 0 and solve the equation for x. This is because when y=0 the line crosses the x-axis. When an equation is not in y = mx + b form, we can solve for the intercepts by plugging in 0 as needed and solving for the remaining variable. To find y-intercept: set x = 0 and solve for y.

### How do you find the x and y-intercepts from a graph?

Since two points determine any line, we can graph lines using the x- and y-intercepts. To find the x-intercept, set y=0 and solve for x. To find the y-intercept, set x=0 and solve for y. This method of finding x- and y-intercepts will be used throughout our study of algebra because it works for any equation.

### How do you know how many X-intercepts there are?

– To determine the x-intercept, we set y equal to zero and solve for x. Similarly, to determine the y-intercept, we set x equal to zero and solve for y.

– To find the x-intercept, set y = 0 \displaystyle y=0 y=0.

– To find the y-intercept, set x = 0 \displaystyle x=0 x=0.

### How do you find the y intercepts of an equation?

To find the x-intercept of a given linear equation, plug in 0 for ‘y’ and solve for ‘x’. To find the y-intercept, plug 0 in for ‘x’ and solve for ‘y’.

### How do you find the intercepts?

To find the x-intercept we set y = 0 and solve the equation for x. This is because when y=0 the line crosses the x-axis. When an equation is not in y = mx + b form, we can solve for the intercepts by plugging in 0 as needed and solving for the remaining variable. To find y-intercept: set x = 0 and solve for y.

### How do you solve for two x-intercepts?

– In the graph below, the function has two x-intercepts.

– The general rule for finding the x-intercept or intercepts of any function is to let y=0 and solve for x.

– Find the x-intercept of the function: y=3x–9.

– Let y=0 and solve for x.

– Answer: Therefore the x-intercept is-

### How do you find the intercepts?

To find the x-intercept we set y = 0 and solve the equation for x. This is because when y=0 the line crosses the x-axis. When an equation is not in y = mx + b form, we can solve for the intercepts by plugging in 0 as needed and solving for the remaining variable. To find y-intercept: set x = 0 and solve for y.