Bring Computational Thinking into Your STEM Classroom!

Confidently Integrate Computational Thinking into Any Lesson with Blockly

SEPA Award
PASCO sensors are supported by SPARKvue with Blockly Coding, a recipient of the 2020 SEPA Presidential Awardee’s Product of Excellence Award!

Introducing students to coding and computer-controlled outcomes is easier than ever before with Blockly coding. Included in SPARKvue 4 and Capstone 2, Blockly offers students a new world of experimental opportunities that focus on computational thinking and data visualization. Blockly’s visual coding environment is intuitively designed to facilitate the success of new coders, while strengthening the skills of more advanced learners.

Blockly’s colored coding blocks provide students with a visual method for developing strong coding foundations. The user-friendly design allows students to simply drag and connect coding blocks that correlate with syntactically correct coding elements such as variables, commands, and loops.

Blockly within SPARKvue and Capstone is compatible with all PASCO sensors and interfaces. When students combine PASCO sensors with Blockly, they are empowered to design and execute their very own sensor experiments. Students can create code that collects sensor measurements, reports data, or controls output devices such as the Smart Fan Accessory. As they execute their code, students can visualize their data using real-time graphical displays that assist with data visualization.

Real-World Coding Activities: Computational Thinking Meets Data Literacy

The integration of Blockly into SPARKvue and Capstone gives students unparalleled control over their experiments. While developing their code, students can press the Record button at any time to execute it and receive live feedback. Students can instantly monitor sensor measurements through live graphs and digits displays that support debugging throughout their code creation process. Once students have successfully coded their sensor parameters, they can collect data in real time, store it, and use it to inform future experiments.

With an unlimited amount of coding combinations, Blockly allows students to customize and create experimental designs, determine data outputs, and use those outputs to inform future decisions. Through the integration of coding and sensor-based technology, both SPARKvue and Capstone provide a platform for the exploration of phenomena through computational thinking and data visualization.

Sample Programming Activities


Entry Level Programming with the Wireless pH Sensor

The Wireless pH Sensor is the perfect tool for introducing young learners to pH and simple programming. In this activity, students use their knowledge of the pH scale and a Wireless pH Sensor to create code that runs along with their data collection. Using a simple set of coding blocks, students can instruct the sensor to identify a sample solution as neutral, basic, or acidic. As their code is executed, live data displays communicate the code’s effect in real time. A text display will correctly identify a solution’s pH. This simple activity gently introduces students to basic programming concepts, sensor measurement, and the pH scale to instill a foundational sense of confidence and understanding in STEM.

SPARKvue Blockly Code
Instruct the sensor to identify a sample solution as neutral, basic, or acidic.
SPARKvue Blockly Code
A live data display communicates the code’s effect in real time.

Entry Level Programming with the Wireless Temperature Sensor

For introductory lessons, students can learn to program a temperature display and a simple text output. The goal of this activity is for students to create a program that gives instructions to cool a liquid to below 15°C. Students can monitor their live temperature reading and a text output that is temperature-dependent. In this example, the text output reads “Add more ice!” when the water temperature is above 15°C, and “Great work!!” when the water temperature is less than or equal to 15°C. The Wireless Temperature Sensor should be placed in a cup containing room temperature water. Once students have developed their Blockly code, they can execute it using the Record button. Add the ice gradually to reduce the water temperature. A successful program will display a live temperature reading and the correct text when the temperature shifts above and below 15°C.

Capstone Blockly Code
In this example, the text output reads “Add more ice!” when the water temperature is above 15°C.
Capstone Blockly Code
In this example, the text output reads “Great work!!” when the water temperature is less than or equal to 15°C.

Advanced Level Programming: Thrust with Blockly and the Smart Fan Accessory

The patented Smart Fan Accessory adds versatility to any dynamics experiment. It features numerous control features when plugged into a Smart Cart. Students can control the fan’s thrust and direction from their devices. They can also set start and stop conditions that power the fan on or off when a particular measurement, such as position, reaches a set value. Students can easily determine a parameter and immediately observe its impact on the experimental outcome, which is a powerful component of active learning.

Students can control the fan’s thrust by programming calculations based on sensor measurements. In this example, a student commands the fan to maintain a thrust of -100*[Position]. This makes the fan blow harder as the cart moves down the track, causing the cart to reverse. When the fan senses a determined measurement, the student’s code is executed, producing a physical change in the experiment and altering data collection. Students can test their code’s effectiveness, make corrections, obtain live data, and complete graphical analysis before exporting their lab for grading. This user-friendly platform is an intuitive and time-efficient method for introducing students to computational thinking without straying from standards.

Smart Fan Configuration Menu
Control the fan’s thrust and direction from their devices.
Capstone Blockly Code
Control the fan’s thrust by programming calculations based on sensor measurements.

Blockly and STEM Sense

Encourage creativity and deepen scientific understanding by incorporating STEM Sense into your classroom! These solutions utilize Blockly coding to introduce students to computational thinking; as students develop their skills, they can use Blockly to design and execute more complicated code for limitless experimentation!

//control.Node

The //control.Node (PS-3232) powers and controls STEM Sense accessories like lights, fans, pumps, and motors. It won the prestigious Educators Pick Best of STEM Award for its functionality. Best of Stem Award

//control.Node Sense & Control Kit

The //control.Node Sense & Control Kit (PS-5050) includes materials and instructions for six investigations, including configuring a night light, cooling fan, and rubber band launcher. It won Best of STEM for its intuitive design and application in the classroom. PS-5050 Sense and Control Kit

PASCObot Sense & Control Kit

This kit won Best of STEM in its category! Equipped with a PASCObot, accessories, and modules, your students can explore robotics even as beginner coders with the PASCObot Sense & Control Kit (ST-7840). The PASCObot includes the rechargeable //control.Node so students can execute their code in real time, or store it to execute later. Best of STEM Award

STEM Sense Coding with Vehicle Sensor Technologies Kit

The Coding with Vehicle Sensor Technologies Kit (ST-7820) allows students to explore the science and sensors behind modern vehicles. The kit includes everything students need to design, test, measure, and code with sensors that mimic real-world vehicle technology. Vehicle Sensors Tech Kit - ST-7820

Greenhouse Sense & Control Kit

The //control.Node is the control center for the Greenhouse Sense & Control Kit (ST-2997), enabling students to code specific conditions in their greenhouse. The kit comes with a water pump, Grow Light, and greenhouse fan, which can be programmed independently to control humidity, temperature, light level, and soil moisture. Greenhouse Best of Stem

Standards Alignment


ISTE Standard: Computational Thinker (all ages)

  • 5a Students formulate problem definitions suited for technology-assisted methods such as data analysis, abstract models and algorithmic thinking in exploring and finding solutions.
  • 5b Students collect data or identify relevant data sets, use digital tools to analyze them, and represent data in various ways to facilitate problem-solving and decision-making.
  • 5c Students break problems into component parts, extract key information, and develop descriptive models to understand complex systems or facilitate problem-solving.
  • 5d Students understand how automation works and use algorithmic thinking to develop a sequence of steps to create and test automated solutions.

ISTE Standards Grades 3-5 (ages 8-11)

Data and Analysis

  • 1B-DA-06 Organize and present collected data visually to highlight relationships and support a claim.
  • 1B-DA-07 Use data to highlight or propose cause-and-effect relationships, predict outcomes, or communicate an idea.

Algorithms and Programming

  • 1B-AP-08 Compare and refine multiple algorithms for the same task and determine which is the most appropriate.
  • 1B-AP-09 Create programs that use variables to store and modify data.
  • 1B-AP-10 Create programs that include sequences, events, loops, and conditionals.
  • 1B-AP-13 Use an iterative process to plan the development of a program by including other perspectives and considering user preferences.
  • 1B-AP-15 Test and debug (identify and fix errors) a program or algorithm to ensure it runs as intended.

ISTE Standards Grades 6-8 (ages 11-14)

Computing Systems

  • 2-CS-02 Design projects that combine hardware and software components to collect and exchange data.

Data and Analysis

  • 2-DA-07 Represent data using multiple encoding schemes.
  • 2-DA-08 Collect data using computational tools and transform the data to make it more useful and reliable.
  • 2-DA-09 Refine computational models based on the data they have generated.

Algorithms and Programming

  • 2-AP-10 Use flowcharts and/or pseudocode to address complex problems as algorithms.
  • 2-AP-11 Create clearly named variables that represent different data types and perform operations on their values.
  • 2-AP-12 Design and iteratively develop programs that combine control structure, including nested loops and compound conditionals.
  • 2-AP-13 Decompose problems and subproblems into parts to facilitate the design, implementation, and review of programs.

NGSS Alignment (Grades 3-5)

Motion and Stability: Forces and Interactions

  • 3-PS2-1 Plan and conduct an investigation to provide evidence of the effects of balanced and unbalanced forces on the motion of an object.
  • 3-PS2-4 Define a simple design problem that can be solved by applying scientific ideas about magnets.

Energy

  • 4-PS3-2 Make observations to provide evidence that energy can be transferred from place to place by sound, light, heat, and electric currents.

Waves and Their Applications in Technologies for Information Transfer

  • 4-PS4-3 Generate and compare multiple solutions that use patterns to transfer information.

Engineering Design

  • 3-5-ETS1-2 Generate and compare multiple possible solutions to a problem based on how well each is likely to meet the criteria and constraints of the problem.
  • 3-5-ETS1-3 Plan and carry out fair tests in which variables are controlled and failure points are considered to identify aspects of a model or prototype that can be improved.

NGSS Alignment (Grades 6-8)

Motion and Stability: Forces and Interactions

  • MS-PS2-3 Ask questions to determine cause and effect relationships of electric or magnetic interactions between two objects not in contact with each other.
  • MS-PS2-5 Conduct an investigation and evaluate the experimental design to provide evidence that fields exist between objects exerting forces on each other even though the objects are not in contact.

Waves and Their Applications in Technologies for Information Transfer

  • MS-PS4-3 Integrate qualitative scientific and technical information to support the claim that digitized signals are a more reliable way to encode and transmit information than analog signals.

Engineering Design

  • MS-ETS1-3 Analyze data from tests to determine similarities and differences among several design solutions to identify the best characteristics of each that can be combined into a new solution to better meet the criteria for success.
  • MS-ETS1-4 Develop a model to generate data for iterative testing and modification of a proposed object, tool, or process such that an optimal design can be achieved.

Blockly is Compatible with All PASCO Sensors & Interfaces


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