# Light Sensor Tone control ## @description @boardname@ guitar: using light sensor to control tone ## ~avatar avatar Use the Light Sensor to the control tone for this [Theremin](https://en.wikipedia.org/wiki/Theremin) inspired guitar * **Concepts:** * Inputs * Light Intensity * Tone/Frequency * Ratio Mapping * Forever Loop * Math (multiplication) with code properties ## ~ ## Duration: 30 - 45 minutes *playing tones with light sensor* https://youtu.be/2cKg9pokVC4 ## The @boardname@ LEDs Light Sensors - the @boardname@ can detect external light level intensity reaching the LEDs - the light level block reports a reading of values 0 (*dark*) to 255 (*bright*) - a **Forever Loop** is required to continually measure the current light level and control the tone ## Forever Loop The forever loop really does run forever. The forever loop is useful when there is a need to continually check for an event or use a changing value in code. ## Blocks ```cards basic.forever(() => {}) input.lightLevel() led.plotBarGraph(0, 255) music.playTone(Note.C, music.beat(BeatFraction.Quarter)) ``` ## Step 1: Create a light level detector ```blocks basic.forever(() => { led.plotBarGraph(input.lightLevel(), 255) }) ``` **Build the blocks** * From **Basic** drag a **forever loop** block into the coding area * From **Led** drag a **plot bar graph** block into the **forever loop** * From **Input** drag a **light level** block into **plot bar graph *of*** **Set the *plot bar graph* value *up to* = *255* ** ## Step 2: Test the light required to move the bar graph height *graphing light input* https://youtu.be/pqU7bTcfQ_s Experiment to see the effect on graph height when the **plot bar graph** value ***up to*** is changed **255 is the maximum light input reading**, try numbers smaller than 255 **Find a value** that allows the graph to show 1 - 5 bars ## ~hint ## Frequency **Frequency** measured in Hz which are cycles per second or vibrations per second * A healthy human ear can detect frequencies in the range of 20Hz to 20,000Hz. * The @boardname@ + headphones reliably produce detectable output ~50Hz - 6,000Hz. **261Hz** represents a C note ```blocks music.playTone(261, music.beat(BeatFraction.Half)) ``` **play tone** blocks can specify a numeric **Frequency** by replacing the letter **C** note with a **number** block that has the value it represents ```blocks music.playTone(261, music.beat(BeatFraction.Half)) ``` ## ~ ## Step 3: Multiply Frequency using Math blocks ```blocks input.onButtonPressed(Button.A, () => { music.playTone(261 * 2, music.beat(BeatFraction.Half)) }) ``` Create a **play tone** block using a **Math** section, **multiplication** block to set *tone* ## Next **Add** a **B** button block that multiplies the **261** tone by a number other than 2 to set tone **Download the code to the @boardname@** **Test the sound for multiples of the 261Hz *C* frequency** ## Step 4: Control the Frequency with the light input ```blocks basic.forever(() => { music.playTone(input.lightLevel() * 25, music.beat(BeatFraction.Quarter)) }) ``` **Create a *forever loop* containing a *play tone* block** **Set *tone*, using *Math* multiplication block that multiplies *light level* input by 25** or experiment with multipliers larger and smaller than 25 **Test light tone control on the guitar** Cover the LEDs with your hand to vary light detected to control the tone ## Good work, this guitar is sounding good! **Challenge:** Create a variable for the light level multiplier that you can change using buttons (optional) ## ~button /projects/guitar/accelerometer NEXT: Accelerometer Beat control ## ~