# steer Steer the brick in one direction using a turn ratio between two motors. ```sig motors.largeAB.steer(0, 0) ``` A brick driving with two motors can steer itself by changing the speed of one motor compared to the speed of the other. To make a slow turn to the left, you might make the right motor run slightly faster than the left one. To make a fast, or sharp, turn to the right, the left motor could run at least twice as fast as the right one. The EV3 Brick steers by using a percentage value of _follow_ for one of the motors. This means that the motor in the turn direction will rotate slower than the other. It is the _follower_ motor and the other motor is the _drive_ motor. The drive motor runs at a percentage of full speed set in **speed**. The follower motor runs at a percentage of speed of the drive motor. So, it runs at a percentage of a percentage of full speed. To make the turn happen you give a _turn ratio_ which is a percentage value of steer to the left or right. If you want to steer to the left at 30% of the of the drive motor speed, use the value of `-30` for **turnRatio**. Left turns use negative values and right turns use positive values. A really sharp turn to the right might use a turn ratio value of `80`. ## Speed and distance The speed setting is a pecentage of the motor's full speed. Full speed is the speed that the motors run when the brick supplies maximum output voltage to the port. If you use just the **speed** number, the motors run continously and won't stop unless you tell them to. You can also give a value for a certain amount of distance you want the motors to rotate for. The **value** can be an amount of time, a turn angle in degrees, or a number of full rotations. If you decide to use a **value** of rotation distance, you need to choose a type of movement **unit**. Also, if you use a number of milliseconds as movement units, then you don't need to include the unit type. The description in [run](/reference/motors/motor/run) shows how to use different movement units. ## Parameters * **turnRatio**: a [number](/types/number) that is the percentage of speed of the drive motor. The follower motor runs at this speed. A negative number steers to the left and a positive number steers to the right. This is a number between `-100` and `100`. * **speed**: a [number](/types/number) that is the percentage of full speed. A negative value runs the motors in the reverse direction. This is the speed that the drive motor runs at. * **value**: the [number](/types/number) of movement units to rotate for. A value of `0` means run the motor continuously. * **unit**: the movement unit of rotation. This can be `milliseconds`, `seconds`, `degrees`, or `rotations`. If the number for **value** is `0`, this parameter isn't used. ## ~hint ** Reverse is negative speed** Steering the brick backwards (in reverse) is simple. Reverse is just a negative speed setting. To steer the brick to the left in reverse at 75% speed: ```block motors.largeBC.steer(-15, -75) ``` ## ~ ## Examples ### Make a slight right Turn to the right with a turn ratio of 10%. ```block motors.largeBC.steer(10, 55) ``` ### Make a sharp left Turn sharply to the left. ```block motors.largeBC.steer(-80, 40) ``` ### Steer straight Use **steer** but go straight ahead. ```block motors.largeBC.steer(0, 100) ``` ### Sneaky snake Steer the brick in a snake pattern for a short time. ```block for (let i = 0; i < 4; i++) { motors.largeBC.steer(30, 30) pause(5000) motors.largeBC.steer(-30, 30) pause(5000) } motors.stopAll() ``` ## See also [tank](/reference/motors/synced/tank), [run](/reference/motors/motor/run)