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rename micro:bit to @boardname@

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Peli de Halleux
2016-11-01 17:44:37 -07:00
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docs/lessons/charting/activity.md
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@ -1,10 +1,10 @@
# Activity
Measure the acceleration on the micro:bit in the "x" direction.
Measure the acceleration on the @boardname@ in the "x" direction.
### ~avatar avatar
Welcome! This activity will teach how to use the micro:bit to chart the acceleration in the "x" direction. Let's get started!
Welcome! This activity will teach how to use the @boardname@ to chart the acceleration in the "x" direction. Let's get started!
### ~
@ -16,7 +16,7 @@ input.acceleration(Dimension.X)
```
### ~
Use the plot bar chart to visualize the acceleration on the LED screen of the micro:bit in the specified range. You implement plot Bar Graph to display a vertical bar graph based on the "value" and "high" value. Then you must insert acceleration in the X dimension to measure the acceleration.
Use the plot bar chart to visualize the acceleration on the LED screen of the @boardname@ in the specified range. You implement plot Bar Graph to display a vertical bar graph based on the "value" and "high" value. Then you must insert acceleration in the X dimension to measure the acceleration.
```blocks
basic.forever(() => {
@ -26,27 +26,27 @@ basic.forever(() => {
```
### ~
Notice that moving the micro:bit in the simulator from left to right (x direction) changes the values beneath the micro:bit in a range from 1023 to -1023 as measured in milli-gravities. By hovering over the micro:bit from left to right, you can observe changing values beneath the micro:bit simulator. Also, the LEDs shown on the Bar Graph fluctates based on the movement of the micro:bit simulator in the x direction. The line underneath the micro:bit simulator reflect the acceleration in the x direction.
Notice that moving the @boardname@ in the simulator from left to right (x direction) changes the values beneath the @boardname@ in a range from 1023 to -1023 as measured in milli-gravities. By hovering over the @boardname@ from left to right, you can observe changing values beneath the @boardname@ simulator. Also, the LEDs shown on the Bar Graph fluctates based on the movement of the @boardname@ simulator in the x direction. The line underneath the @boardname@ simulator reflect the acceleration in the x direction.
NOTE: The colors of the charts reflect the color of the micro:bit simulator. In this instance, the micro:bit is yellow. So the color of the data line reflects the color of the micro:bit
NOTE: The colors of the charts reflect the color of the @boardname@ simulator. In this instance, the @boardname@ is yellow. So the color of the data line reflects the color of the @boardname@
![](/static/mb/data4.png)
### ~
Vigorously move the micro:bit in the micro:bit simulatator by moving the micro:bit image from side to side. Every time the micro:bit moves in the x direction in the simulator, you are generating data points that can be reviewed in Excel. The more attempts to move the micro:bit from side to side, the more data being saved in Excel. After you have vigarously moved the micro:bit simulator from side to side for a sufficient amount of time, you are ready to graph or chart the accceleration of the micro:bit. We want a printout of our acceleration on Excel that can be graphed in Excel.
Vigorously move the @boardname@ in the @boardname@ simulatator by moving the @boardname@ image from side to side. Every time the @boardname@ moves in the x direction in the simulator, you are generating data points that can be reviewed in Excel. The more attempts to move the @boardname@ from side to side, the more data being saved in Excel. After you have vigarously moved the @boardname@ simulator from side to side for a sufficient amount of time, you are ready to graph or chart the accceleration of the @boardname@. We want a printout of our acceleration on Excel that can be graphed in Excel.
### ~
We want to chart the data collected by using a tool in Excel.
The final part of this experiment is opening and reviewing the data in the Excel CSV file. Simply click on the line beneath the simulator. A CSV file will be generated to display the data points collected by moving the micro:bit in the X direction. Then click or tap on the data Excel file that was downloaded to your local ``Downloads`` Folder.
The final part of this experiment is opening and reviewing the data in the Excel CSV file. Simply click on the line beneath the simulator. A CSV file will be generated to display the data points collected by moving the @boardname@ in the X direction. Then click or tap on the data Excel file that was downloaded to your local ``Downloads`` Folder.
### ~
First, click or tap on the first two columns (A, B) to include the time of the data being collected; b) the results of acceleration data on the micro:bit
First, click or tap on the first two columns (A, B) to include the time of the data being collected; b) the results of acceleration data on the @boardname@
![](/static/mb/data7.png)