- #Pasco capstone software introduction full
- #Pasco capstone software introduction Bluetooth
- #Pasco capstone software introduction mac
Image 6: A picture of the completed data table and graph. Image 5: A picture of the empty graph users see when they first open the Boyle’s Law experiment. Experiment 12B: Boyles Law is highlighted as this is the experiment we used to test the sensor. Image 4: A picture of some of the experiment choices in the Essential Chemistry category. Image 3: A picture of some of the subject choices users are provided with if they choose to open a PASCO experiment. Image 2: A picture of the screen users see where they are prompted to select how they wish to continue their data collection. Multiple runs of data can be collected, which is commensurate with the computation of descriptive statistics and inferences (see Image 6). The data appears in the table and is exported into a graph after data collection. Once users click on an experiment, a blank graph and table appears for users follow along with the instructions to complete a lab handout for data collection (see Image 5). The experiment that we used came from the Essential Chemistry section, which is taken from the list of experiments shown in Image 4, i.e., 12B- Boyles Law, which is one of PASCO’s Essential Chemistry Investigations. We chose to open a PASCO experiment which is shown below in Image 3. Users then choose the “Start New Experiment” option, which has a two options: 1) build a new experiment or 2) open a saved experiment (see Image 2).
#Pasco capstone software introduction Bluetooth
The Bluetooth LED light blinks green to indicate that the device is connected via Bluetooth and can begin data collection! Once the the PASCO data collection software is ready, users select the Bluetooth icon, and then select the device from the “Wireless Devices” list that matches the Device ID number on the bottom left portion of their sensor.
#Pasco capstone software introduction mac
However, PASCO Capstone is compatible with Mac or Windows and is also easy to use. We selected SPARKvue which is compatible with Mac, Windows, iOS, Android, and Chromebooks. In order to connect the sensor via Bluetooth, users must first launch the PASCO data collection software, i.e, SPARKvue or PASCO Capstone. Once the battery is fully charged, via a Bluetooth connection, users can open SPARKvue or PASCO Capstone to connect their device to the sensor. Image 1: A picture of the PASCO Wireless Pressure sensor.
#Pasco capstone software introduction full
According to the website description of the product (which can be found at ) the battery has an expected life of approximately 3-4 months with normal use after a full charge and the LED light blinks red to indicate to users that the battery is charging. Subsequently, the micro USB end of the cable is inserted into the sensor and the USB end of the cable is inserted into a USB port (e.g., the USB port of a computer) for approximately 3 hours. Prior to using the sensor, users must charge it with a micro USB charging cable. The sensor has a range of 0-400 kilopascals (kPa)- with its most accurate reported measurements reported over 20 kPa. The PASCO Wireless Pressure sensor is easy to use and connects via Bluetooth to the user’s cell phone or to another electronic device, e.g., IPad.
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