ALEX Resources

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Learning Activities (1) Building blocks of a lesson plan that include before, during, and after strategies to actively engage students in learning a concept or skill. Classroom Resources (20)


ALEX Learning Activities  
   View Standards     Standard(s): [ELA2015] (12) 38 :
38 ) Determine or clarify the meaning of unknown and multiple-meaning words and phrases based on Grade 12 reading and content, choosing flexibly from a range of strategies. [L.11-12.4]

a. Use context (e.g., the overall meaning of a sentence, paragraph, or text; a word's position or function in a sentence) as a clue to the meaning of a word or phrase. [L.11-12.4a]

b. Identify and correctly use patterns of word changes that indicate different meanings or parts of speech (e.g., conceive, conception, conceivable). [L.11-12.4b]

c. Consult general and specialized reference materials (e.g., dictionaries, glossaries, thesauruses), both print and digital, to find the pronunciation of a word or determine or clarify its precise meaning, its part of speech, its etymology, or its standard usage. [L.11-12.4c]

d. Verify the preliminary determination of the meaning of a word or phrase (e.g., by checking the inferred meaning in context or in a dictionary). [L.11-12.4d]

[DLIT] (8) 22 :
16) Present content designed for specific audiences through an appropriate medium.

Example: Create and share a help video for a senior's center that provides tips for online safety.

[DLIT] (8) 35 :
29) Create an artifact to solve a problem using ideation and iteration in the problem-solving process.

Examples: Create a public service announcement or design a computer program, game, or application.

Subject: English Language Arts (12), Digital Literacy and Computer Science (8)
Title: Shakespeare's Insults
Description:

The Shakespeare Pro app gives the user access to the text of Shakespeare's complete works, a concordance, a glossary, portraits, quotes, and links to other Shakespeare websites and current news regarding Shakespearean events.




ALEX Learning Activities: 1

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ALEX Classroom Resources  
   View Standards     Standard(s): [DLIT] (6) 36 :
30) Discuss and apply the components of the problem-solving process.

Example: Students will devise a plan to alleviate traffic congestion around the school during drop-off and pick-up.

[DLIT] (7) 36 :
30) Apply the problem-solving process to solve real-world problems.

[DLIT] (8) 29 :
23) Design a digital artifact to propose a solution for a content-related problem.

Example: Create a presentation outlining how to create a cost-efficient method to melt snow on roads during the winter.

[DLIT] (8) 31 :
25) Create a model that represents a system.

Example: Food chain, supply and demand.

[DLIT] (8) 35 :
29) Create an artifact to solve a problem using ideation and iteration in the problem-solving process.

Examples: Create a public service announcement or design a computer program, game, or application.

Subject: Digital Literacy and Computer Science (6 - 8)
Title: Design Thinking
URL: https://www.remc.org/21Things4Students/21/15-design-thinking/
Description:

Design Thinking is a process for designing something to solve a problem. It shares a lot of similarities to the Engineering Design Process you might learn in a STEM class and the Scientific Method you learn in science. However, it tends to work really well with creating solutions to problems that impact humans, also known as Human-Centered Design

In this activity, you’ll work with a team to identify a problem, come up with ideas to solve it, make a prototype of your best idea, test it out and ultimately share it. Your goal is to make a positive impact on the problem you choose.


LEARNING OBJECTIVES

When you have completed this activity you will:

  1. be able to use research skills to understand real-world problems and develop ideas to solve them [Innovative Designer, Knowledge Constructor]

  2. know how to use a design process to solve a problem [Innovative Designer]

  3. be able to create and test prototypes to improve on a design [Innovative Designer]

  4. be able to choose appropriate tools to organize and manage a process with team members [Innovative Designer, Global Collaborator]

  5. be able to choose appropriate tools to share my ideas with a target audience [Innovative Designer, Creative Communicator]

  6. understand Tinkercad design software basics [Empowered Learner]

  7. know how to use Tinkercad software to design their own invention that solves a problem or changes how we interact with the world [Innovative Designer]

  8. know that technology is something that solves a problem or changes how we interact with the world [Knowledge Constructor]



   View Standards     Standard(s): [DLIT] (6) 7 :
1) Remove background details from an everyday process to highlight essential properties.

Examples: When making a sandwich, the type of bread, condiments, meats, and/or vegetables do not affect the fact that one is making a sandwich.

[DLIT] (6) 12 :
6) Identify steps in developing solutions to complex problems using computational thinking.

[DLIT] (6) 13 :
7) Describe how automation works to increase efficiency.

Example: Compare the amount of time/work to hand wash a car vs. using an automated car wash.

[DLIT] (6) 36 :
30) Discuss and apply the components of the problem-solving process.

Example: Students will devise a plan to alleviate traffic congestion around the school during drop-off and pick-up.

[DLIT] (7) 11 :
5) Solve a complex problem using computational thinking.

[DLIT] (7) 12 :
6) Create and organize algorithms in order to automate a process efficiently.

Example: Set of recipes (algorithms) for preparing a complete meal.

[DLIT] (7) 14 :
8) Formulate a narrative for each step of a process and its intended result, given pseudocode or code.

[DLIT] (7) 36 :
30) Apply the problem-solving process to solve real-world problems.

[DLIT] (8) 8 :
2) Explain how abstraction is used in a given function.

Example: Examine a set of block-based code and explain how abstraction was used.

[DLIT] (8) 11 :
5) Discuss the efficiency of an algorithm or technology used to solve complex problems.

[DLIT] (8) 12 :
6) Describe how algorithmic processes and automation increase efficiency.

[DLIT] (8) 35 :
29) Create an artifact to solve a problem using ideation and iteration in the problem-solving process.

Examples: Create a public service announcement or design a computer program, game, or application.

Subject: Digital Literacy and Computer Science (6 - 8)
Title: Computational Thinking
URL: https://www.remc.org/21Things4Students/21/21-computational-thinking/
Description:

Have you ever had a complex problem that you needed to solve? This could be a math problem, science experiment, an essay you need to write, and coding and game design. It could even be as simple as planning the best route to school or baking your favorite cookies!

Computational thinking can be used to take a complex problem, understand what the problem is and develop possible solutions to solve or explain it.

Students will complete Quests to learn about the four stages of computational thinking:


LEARNING OBJECTIVES:

When you have completed this activity you will:

  1. understand computational thinking [Computational Thinker]
     
  2. be able to solve complex problems using computational thinking. [Computational Thinker]

  3. be able to break down a problem into smaller more manageable parts. [Computational Thinker]

  4. know how to look for patterns and sequences. [Computational Thinker]

  5. be able to focus on important information only. [Computational Thinker]

  6. be able to develop a step-by-step solution to the problem. [Computational Thinker]

  7. know how to use coding to automate a task [Computational Thinker]

  8. understand computational design by applying technology to a problem [Innovative Designer]

  9. understand programming as you complete hands-on activities, solving problems encountered [Computational Thinker]

  10. understand the coding your program creates [Empowered Learner]



   View Standards     Standard(s): [DLIT] (6) 6 :
R6) Produce, review, and revise authentic artifacts that include multimedia using appropriate digital tools.

[DLIT] (7) 6 :
R6) Produce, review, and revise authentic artifacts that include multimedia using appropriate digital tools.

[DLIT] (7) 22 :
16) Construct content designed for specific audiences through an appropriate medium.

Examples: Design a multi-media children's e-book with an appropriate readability level.

[DLIT] (7) 36 :
30) Apply the problem-solving process to solve real-world problems.

[DLIT] (8) 6 :
R6) Produce, review, and revise authentic artifacts that include multimedia using appropriate digital tools.

[DLIT] (8) 35 :
29) Create an artifact to solve a problem using ideation and iteration in the problem-solving process.

Examples: Create a public service announcement or design a computer program, game, or application.

Subject: Digital Literacy and Computer Science (6 - 8)
Title: Digital Storytelling
URL: https://www.remc.org/21Things4Students/21/18-digital-storytelling/
Description:

Digital storytelling is one of the greatest ways to share and present your story using a variety of media to enhance it. Digital stories can include images, photos, audio, and video. Your task in this Thing is to research digital story examples and think about the story you want to tell. You will also begin to think about the media you might want to use.

LEARNING OBJECTIVES

When you have completed this activity you will:

  1. know and use a process for creating a digital story [Innovative Designer]
  2. be able to select and use the appropriate digital tool(s) [Digital Citizen, Empowered learner]
  3. understand how to use a Storyboard to build and organize your story elements [Computational Thinker]
  4. participate in constructive peer feedback to improve the end product to be shared [Creative Communicator]
  5. create an original story with different media elements [Knowledge Constructor]



   View Standards     Standard(s): [DLIT] (3) 8 :
2) Analyze a given list of sub-problems while addressing a larger problem.

Example: Problem - making a peanut butter sandwich; sub-problem - opening jar, finding a knife, getting the bread.
Problem - design and share a brochure; sub-problem - selecting font, choosing layout.

[DLIT] (3) 13 :
7) Test and debug a given program in a block-based visual programming environment using arithmetic operators, conditionals, and repetition in programs, in collaboration with others.

Examples: Sequencing cards for unplugged activities, online coding practice.

[DLIT] (4) 8 :
2) Formulate a list of sub-problems to consider while addressing a larger problem.

Examples: Problem - a multi-step math problem; sub-problem - steps to solve.
Problem - light bulb does not light; sub-problem - steps to resolve why.

[DLIT] (4) 9 :
3) Show that different solutions exist for the same problem or sub-problem.

[DLIT] (4) 10 :
4) Detect and debug logical errors in various basic algorithms.

Example: Trace the path of a set of directions to determine success or failure.

[DLIT] (4) 13 :
7) Create a working program in a block-based visual programming environment using arithmetic operators, conditionals, and repetition in programs, in collaboration with others.

[DLIT] (5) 8 :
2) Create an algorithm to solve a problem while detecting and debugging logical errors within the algorithm.

Examples: Program the movement of a character, robot, or person through a maze.
Define a variable that can be changed or updated.

[DLIT] (5) 12 :
6) Create a working program in a block-based visual programming environment using arithmetic operators, conditionals, and repetition in programs.

[DLIT] (5) 14 :
8) Demonstrate that programs require known starting values that may need to be updated appropriately during the execution of programs.

Examples: Set initial value of a variable, updating variables.

[DLIT] (6) 7 :
1) Remove background details from an everyday process to highlight essential properties.

Examples: When making a sandwich, the type of bread, condiments, meats, and/or vegetables do not affect the fact that one is making a sandwich.

[DLIT] (6) 14 :
8) Create a program that initializes a variable.

Example: Create a flowchart in which the variable or object returns to a starting position upon completion of a task.

[DLIT] (7) 12 :
6) Create and organize algorithms in order to automate a process efficiently.

Example: Set of recipes (algorithms) for preparing a complete meal.

[DLIT] (7) 13 :
7) Create a program that updates the value of a variable in the program.

Examples: Update the value of score when a coin is collected (in a flowchart, pseudocode or program).

[DLIT] (7) 14 :
8) Formulate a narrative for each step of a process and its intended result, given pseudocode or code.

[DLIT] (8) 9 :
3) Create an algorithm using a programming language that includes the use of sequencing, selections, or iterations.

Example: Use a block-based or script programming language
Step 1: Start
Step 2: Declare variables a, b and c.
Step 3: Read variables a, b and c.
Step 4: If a>b
      If a>c
         Display a is the largest number.
     Else
         Display c is the largest number.
   Else
      If b>c
         Display b is the largest number.
      Else
         Display c is the greatest number.
Step 5: Stop

[DLIT] (8) 13 :
7) Create a program that includes selection, iteration, or abstraction, and initializes, and updates, at least two variables.

Examples: Make a game, interactive card, story, or adventure game.

[DLIT] (8) 29 :
23) Design a digital artifact to propose a solution for a content-related problem.

Example: Create a presentation outlining how to create a cost-efficient method to melt snow on roads during the winter.

[DLIT] (8) 35 :
29) Create an artifact to solve a problem using ideation and iteration in the problem-solving process.

Examples: Create a public service announcement or design a computer program, game, or application.

Subject: Digital Literacy and Computer Science (3 - 8)
Title: Art
URL: https://csfirst.withgoogle.com/c/cs-first/en/art/overview.html
Description:

In Art, students create animations, interactive artwork, photograph filters, and other exciting, artistic projects.

Art is a complete theme designed to be completed over eight, 45-75 minute, sessions. For each Activity, students will watch a series of videos and create one coding project with opportunities to personalize their work using “Add-Ons”, which are mini-coding challenges that build on top of the core project.

Be sure to review the Materials tab for the lesson plan, starter guide, and more.

Users will need a Google account to use this resource.  



   View Standards     Standard(s): [DLIT] (4) 6 :
R6) Produce, review, and revise authentic artifacts that include multimedia using appropriate digital tools.

[DLIT] (4) 8 :
2) Formulate a list of sub-problems to consider while addressing a larger problem.

Examples: Problem - a multi-step math problem; sub-problem - steps to solve.
Problem - light bulb does not light; sub-problem - steps to resolve why.

[DLIT] (4) 10 :
4) Detect and debug logical errors in various basic algorithms.

Example: Trace the path of a set of directions to determine success or failure.

[DLIT] (4) 13 :
7) Create a working program in a block-based visual programming environment using arithmetic operators, conditionals, and repetition in programs, in collaboration with others.

[DLIT] (4) 27 :
21) Develop, test, and refine prototypes as part of a cyclical design process to solve a simple problem.

[DLIT] (5) 6 :
R6) Produce, review, and revise authentic artifacts that include multimedia using appropriate digital tools.

[DLIT] (5) 8 :
2) Create an algorithm to solve a problem while detecting and debugging logical errors within the algorithm.

Examples: Program the movement of a character, robot, or person through a maze.
Define a variable that can be changed or updated.

[DLIT] (5) 12 :
6) Create a working program in a block-based visual programming environment using arithmetic operators, conditionals, and repetition in programs.

[DLIT] (5) 14 :
8) Demonstrate that programs require known starting values that may need to be updated appropriately during the execution of programs.

Examples: Set initial value of a variable, updating variables.

[DLIT] (5) 34 :
28) Develop, test, and refine prototypes as part of a cyclical design process to solve a complex problem.

Examples: Design backpack for a specific user's needs; design a method to collect and transport water without the benefit of faucets; design boats that need to hold as much payload as possible before sinking; design models of chairs based on specific user needs.

[DLIT] (6) 6 :
R6) Produce, review, and revise authentic artifacts that include multimedia using appropriate digital tools.

[DLIT] (6) 14 :
8) Create a program that initializes a variable.

Example: Create a flowchart in which the variable or object returns to a starting position upon completion of a task.

[DLIT] (7) 6 :
R6) Produce, review, and revise authentic artifacts that include multimedia using appropriate digital tools.

[DLIT] (7) 13 :
7) Create a program that updates the value of a variable in the program.

Examples: Update the value of score when a coin is collected (in a flowchart, pseudocode or program).

[DLIT] (7) 14 :
8) Formulate a narrative for each step of a process and its intended result, given pseudocode or code.

[DLIT] (8) 6 :
R6) Produce, review, and revise authentic artifacts that include multimedia using appropriate digital tools.

[DLIT] (8) 7 :
1) Design a function using a programming language that demonstrates abstraction.

Example: Create a program that utilizes functions in an effort remove repetitive sequences of steps.

[DLIT] (8) 9 :
3) Create an algorithm using a programming language that includes the use of sequencing, selections, or iterations.

Example: Use a block-based or script programming language
Step 1: Start
Step 2: Declare variables a, b and c.
Step 3: Read variables a, b and c.
Step 4: If a>b
      If a>c
         Display a is the largest number.
     Else
         Display c is the largest number.
   Else
      If b>c
         Display b is the largest number.
      Else
         Display c is the greatest number.
Step 5: Stop

[DLIT] (8) 13 :
7) Create a program that includes selection, iteration, or abstraction, and initializes, and updates, at least two variables.

Examples: Make a game, interactive card, story, or adventure game.

[DLIT] (8) 35 :
29) Create an artifact to solve a problem using ideation and iteration in the problem-solving process.

Examples: Create a public service announcement or design a computer program, game, or application.

Subject: Digital Literacy and Computer Science (4 - 8)
Title: Game Design
URL: https://csfirst.withgoogle.com/c/cs-first/en/game-design/overview.html
Description:

In Game Design, students learn basic video game coding concepts by making different types of games, including racing, platform, launching, and more! 

Game Design is a complete theme designed to be completed over eight, 45-75 minute, sessions. For each activity, students will watch a series of videos and create one coding project with opportunities to personalize their work using “Add-Ons”, which are mini-coding challenges that build on top of the core project.

Be sure to review the Materials tab for the lesson plan, starter guide, and more.

Users will need a Google account to use this resource. 



   View Standards     Standard(s): [DLIT] (6) 29 :
23) Discuss how digital devices may be used to collect, analyze, and present information.

[DLIT] (6) 36 :
30) Discuss and apply the components of the problem-solving process.

Example: Students will devise a plan to alleviate traffic congestion around the school during drop-off and pick-up.

[DLIT] (7) 33 :
27) Identify data needed to create a model or simulation of a given event.

Examples: When creating a random name generator, the program needs access to a list of possible names.

[DLIT] (7) 36 :
30) Apply the problem-solving process to solve real-world problems.

[DLIT] (8) 35 :
29) Create an artifact to solve a problem using ideation and iteration in the problem-solving process.

Examples: Create a public service announcement or design a computer program, game, or application.

Subject: Digital Literacy and Computer Science (6 - 8)
Title: Computer Science Discoveries Unit 6 Chapter 1 Lesson 8: The Program Design Process (18-19)
URL: https://studio.code.org/s/csd6-2018/stage/8/puzzle/1
Description:

Students will use the design circuit boards and create an app of their own design.

Note: You will need to create a free account on code.org before you can view this resource.



   View Standards     Standard(s): [DLIT] (6) 6 :
R6) Produce, review, and revise authentic artifacts that include multimedia using appropriate digital tools.

[DLIT] (6) 11 :
5) Identify algorithms that make use of sequencing, selection or iteration.

Examples: Sequencing is doing steps in order (put on socks, put on shoes, tie laces); selection uses a Boolean condition to determine which of two parts of an algorithm are used (hair is dirty? True, wash hair; false, do not); iteration is the repetition of part of an algorithm until a condition is met (if you're happy and you know it clap your hands, when you're no longer happy you stop clapping).

[DLIT] (6) 12 :
6) Identify steps in developing solutions to complex problems using computational thinking.

[DLIT] (6) 14 :
8) Create a program that initializes a variable.

Example: Create a flowchart in which the variable or object returns to a starting position upon completion of a task.

[DLIT] (6) 29 :
23) Discuss how digital devices may be used to collect, analyze, and present information.

[DLIT] (6) 36 :
30) Discuss and apply the components of the problem-solving process.

Example: Students will devise a plan to alleviate traffic congestion around the school during drop-off and pick-up.

[DLIT] (7) 6 :
R6) Produce, review, and revise authentic artifacts that include multimedia using appropriate digital tools.

[DLIT] (7) 7 :
1) Create a function to simplify a task.

Example: Get a writing utensil, get paper, jot notes can collectively be named "note taking".

[DLIT] (7) 8 :
2) Create complex pseudocode using conditionals and Boolean statements.

Example: Automated vacuum pseudocode — drive forward until the unit encounters an obstacle; reverse 2"; rotate 30 degrees to the left, repeat.

[DLIT] (7) 9 :
3) Create algorithms that demonstrate sequencing, selection or iteration.

Examples: Debit card transactions are approved until the account balance is insufficient to fund the transaction = iteration, do until.

[DLIT] (7) 11 :
5) Solve a complex problem using computational thinking.

[DLIT] (7) 12 :
6) Create and organize algorithms in order to automate a process efficiently.

Example: Set of recipes (algorithms) for preparing a complete meal.

[DLIT] (7) 13 :
7) Create a program that updates the value of a variable in the program.

Examples: Update the value of score when a coin is collected (in a flowchart, pseudocode or program).

[DLIT] (7) 22 :
16) Construct content designed for specific audiences through an appropriate medium.

Examples: Design a multi-media children's e-book with an appropriate readability level.

[DLIT] (7) 23 :
17) Publish content to be available for external feedback.

[DLIT] (7) 33 :
27) Identify data needed to create a model or simulation of a given event.

Examples: When creating a random name generator, the program needs access to a list of possible names.

[DLIT] (8) 6 :
R6) Produce, review, and revise authentic artifacts that include multimedia using appropriate digital tools.

[DLIT] (8) 7 :
1) Design a function using a programming language that demonstrates abstraction.

Example: Create a program that utilizes functions in an effort remove repetitive sequences of steps.

[DLIT] (8) 9 :
3) Create an algorithm using a programming language that includes the use of sequencing, selections, or iterations.

Example: Use a block-based or script programming language
Step 1: Start
Step 2: Declare variables a, b and c.
Step 3: Read variables a, b and c.
Step 4: If a>b
      If a>c
         Display a is the largest number.
     Else
         Display c is the largest number.
   Else
      If b>c
         Display b is the largest number.
      Else
         Display c is the greatest number.
Step 5: Stop

[DLIT] (8) 10 :
4) Create a function to simplify a task.

Example: 38 = 3*3*3*3*3*3*3*3; =(Average) used in a spreadsheet to average a given list of grades.

[DLIT] (8) 13 :
7) Create a program that includes selection, iteration, or abstraction, and initializes, and updates, at least two variables.

Examples: Make a game, interactive card, story, or adventure game.

[DLIT] (8) 35 :
29) Create an artifact to solve a problem using ideation and iteration in the problem-solving process.

Examples: Create a public service announcement or design a computer program, game, or application.

Subject: Digital Literacy and Computer Science (6 - 8)
Title: Computer Science Discoveries Unit 6 Chapter 1 Lesson 9: Make a Game (18-19)
URL: https://studio.code.org/s/csd6-2018/stage/9/puzzle/1
Description:

Students take what they've learned through Unit 6 Chapter 1 and develop an app of their own design that uses the circuit board to output information.

Note: You will need to create a free account on code.org before you can view this resource. 



   View Standards     Standard(s): [DLIT] (6) 36 :
30) Discuss and apply the components of the problem-solving process.

Example: Students will devise a plan to alleviate traffic congestion around the school during drop-off and pick-up.

[DLIT] (7) 33 :
27) Identify data needed to create a model or simulation of a given event.

Examples: When creating a random name generator, the program needs access to a list of possible names.

[DLIT] (7) 36 :
30) Apply the problem-solving process to solve real-world problems.

[DLIT] (8) 35 :
29) Create an artifact to solve a problem using ideation and iteration in the problem-solving process.

Examples: Create a public service announcement or design a computer program, game, or application.

Subject: Digital Literacy and Computer Science (6 - 8)
Title: Computer Science Discoveries Unit 5 Chapter 2 Lesson 15: Project - Solve a Data Problem (18-19)
URL: https://studio.code.org/s/csd5-2018/stage/15/puzzle/1?section_id=1888730
Description:

To conclude this unit, students design a recommendation engine based on data that they collect and analyze from their classmates. After looking at an example of a recommendation app, students follow a project guide to complete this multi-day activity. In the first several steps, students choose what choice they want to help the user to make, what data they need to give the recommendation, create a survey, and collect information about their classmates' choices. They then interpret the data and use what they have learned to create the recommendation algorithm. Last, they use their algorithms to make recommendations to a few classmates. Students perform a peer review and make any necessary updates to their projects before preparing a presentation to the class.

Note: You will need to create a free account on code.org before you can view this resource.



   View Standards     Standard(s): [DLIT] (6) 6 :
R6) Produce, review, and revise authentic artifacts that include multimedia using appropriate digital tools.

[DLIT] (6) 9 :
3) Create pseudocode that uses conditionals.

Examples: Using if/then/else (If it is raining then bring an umbrella else get wet).

[DLIT] (6) 14 :
8) Create a program that initializes a variable.

Example: Create a flowchart in which the variable or object returns to a starting position upon completion of a task.

[DLIT] (6) 29 :
23) Discuss how digital devices may be used to collect, analyze, and present information.

[DLIT] (6) 36 :
30) Discuss and apply the components of the problem-solving process.

Example: Students will devise a plan to alleviate traffic congestion around the school during drop-off and pick-up.

[DLIT] (7) 6 :
R6) Produce, review, and revise authentic artifacts that include multimedia using appropriate digital tools.

[DLIT] (7) 8 :
2) Create complex pseudocode using conditionals and Boolean statements.

Example: Automated vacuum pseudocode — drive forward until the unit encounters an obstacle; reverse 2"; rotate 30 degrees to the left, repeat.

[DLIT] (7) 9 :
3) Create algorithms that demonstrate sequencing, selection or iteration.

Examples: Debit card transactions are approved until the account balance is insufficient to fund the transaction = iteration, do until.

[DLIT] (7) 10 :
4) Design a complex algorithm that contains sequencing, selection or iteration.

Examples: Lunch line algorithm that contains parameters for bringing your lunch and multiple options available in the lunch line.

[DLIT] (7) 11 :
5) Solve a complex problem using computational thinking.

[DLIT] (7) 22 :
16) Construct content designed for specific audiences through an appropriate medium.

Examples: Design a multi-media children's e-book with an appropriate readability level.

[DLIT] (7) 33 :
27) Identify data needed to create a model or simulation of a given event.

Examples: When creating a random name generator, the program needs access to a list of possible names.

[DLIT] (7) 36 :
30) Apply the problem-solving process to solve real-world problems.

[DLIT] (8) 6 :
R6) Produce, review, and revise authentic artifacts that include multimedia using appropriate digital tools.

[DLIT] (8) 7 :
1) Design a function using a programming language that demonstrates abstraction.

Example: Create a program that utilizes functions in an effort remove repetitive sequences of steps.

[DLIT] (8) 13 :
7) Create a program that includes selection, iteration, or abstraction, and initializes, and updates, at least two variables.

Examples: Make a game, interactive card, story, or adventure game.

[DLIT] (8) 29 :
23) Design a digital artifact to propose a solution for a content-related problem.

Example: Create a presentation outlining how to create a cost-efficient method to melt snow on roads during the winter.

[DLIT] (8) 35 :
29) Create an artifact to solve a problem using ideation and iteration in the problem-solving process.

Examples: Create a public service announcement or design a computer program, game, or application.

Subject: Digital Literacy and Computer Science (6 - 8)
Title: Computer Science Discoveries Unit 6 Chapter 2 Lesson 16: Prototype an Innovation (18-19)
URL: https://studio.code.org/s/csd6-2018/stage/16/puzzle/1?section_id=1888730
Description:

Students, working with a partner or team will brainstorm physical devices they wish to prototype. Students have the option to design a new creation or recreate a device they have found in the "real world". Students will complete a planning guide to determine the resources (physical and digital) they will need to create their prototype. Students will design a user interface (typically an app or circuit board) that may control some output device (like a circuit board). It will be necessary for students to develop pseudocode or algorithms to aid in the coding process. Students will need to complete the problem-solving process during this lesson plan which will include testing a revising the prototype.

Note: You will need to create a free account on code.org before you can view this resource.



   View Standards     Standard(s): [DLIT] (6) 36 :
30) Discuss and apply the components of the problem-solving process.

Example: Students will devise a plan to alleviate traffic congestion around the school during drop-off and pick-up.

[DLIT] (7) 21 :
15) Discuss unique perspectives and needs of a global culture when developing computational artifacts, including options for accessibility for all users.

Example: Would students create a webpage aimed at reaching a village of users that have no way access to the Internet?

[DLIT] (7) 22 :
16) Construct content designed for specific audiences through an appropriate medium.

Examples: Design a multi-media children's e-book with an appropriate readability level.

[DLIT] (7) 36 :
30) Apply the problem-solving process to solve real-world problems.

[DLIT] (8) 21 :
15) Critique computational artifacts, including options for accessibility for all users, with respect to the needs of a global culture.

[DLIT] (8) 22 :
16) Present content designed for specific audiences through an appropriate medium.

Example: Create and share a help video for a senior's center that provides tips for online safety.

[DLIT] (8) 35 :
29) Create an artifact to solve a problem using ideation and iteration in the problem-solving process.

Examples: Create a public service announcement or design a computer program, game, or application.

Subject: Digital Literacy and Computer Science (6 - 8)
Title: Computer Science Discoveries Unit 4 Chapter 2 Lesson 11: Prototype Testing (18-19)
URL: https://studio.code.org/s/csd4-2018/stage/11/puzzle/1
Description:

In this lesson, teams test out their paper prototypes with other members of the class. With one student role playing the computer, one narrating, and the rest observing, teams will get immediate feedback on their app designs which will inform the next version of their app prototypes.

Note: You will need to create a free account on code.org before you can view this resource.



   View Standards     Standard(s): [DLIT] (6) 36 :
30) Discuss and apply the components of the problem-solving process.

Example: Students will devise a plan to alleviate traffic congestion around the school during drop-off and pick-up.

[DLIT] (7) 21 :
15) Discuss unique perspectives and needs of a global culture when developing computational artifacts, including options for accessibility for all users.

Example: Would students create a webpage aimed at reaching a village of users that have no way access to the Internet?

[DLIT] (7) 22 :
16) Construct content designed for specific audiences through an appropriate medium.

Examples: Design a multi-media children's e-book with an appropriate readability level.

[DLIT] (7) 36 :
30) Apply the problem-solving process to solve real-world problems.

[DLIT] (8) 21 :
15) Critique computational artifacts, including options for accessibility for all users, with respect to the needs of a global culture.

[DLIT] (8) 22 :
16) Present content designed for specific audiences through an appropriate medium.

Example: Create and share a help video for a senior's center that provides tips for online safety.

[DLIT] (8) 35 :
29) Create an artifact to solve a problem using ideation and iteration in the problem-solving process.

Examples: Create a public service announcement or design a computer program, game, or application.

Subject: Digital Literacy and Computer Science (6 - 8)
Title: Computer Science Discoveries Unit 4 Chapter 2 Lesson 12: Digital Design (18-19)
URL: https://studio.code.org/s/csd4-2018/stage/12/puzzle/1
Description:

Having developed, tested, and gathered feedback on a paper prototype, teams now move to App Lab to build the next iteration of their apps. Using the drag-and-drop Design Mode, each team member builds out at least one page of their team's app, responding to feedback that was received in the previous round of testing.

Note: You will need to create a free account on code.org before you can view this resource.



   View Standards     Standard(s): [DLIT] (6) 36 :
30) Discuss and apply the components of the problem-solving process.

Example: Students will devise a plan to alleviate traffic congestion around the school during drop-off and pick-up.

[DLIT] (7) 36 :
30) Apply the problem-solving process to solve real-world problems.

[DLIT] (8) 21 :
15) Critique computational artifacts, including options for accessibility for all users, with respect to the needs of a global culture.

[DLIT] (8) 35 :
29) Create an artifact to solve a problem using ideation and iteration in the problem-solving process.

Examples: Create a public service announcement or design a computer program, game, or application.

Subject: Digital Literacy and Computer Science (6 - 8)
Title: Computer Science Discoveries Unit 4 Chapter 2 Lesson 13: Linking Screens (18-19)
URL: https://studio.code.org/s/csd4-2018/stage/13/puzzle/1
Description:

Building on the screens that the class designed in the previous lesson, teams combine screens into a single app. Simple code can then be added to make button clicks change to the appropriate screen.

Note: You will need to create a free account on code.org before you can view this resource.



   View Standards     Standard(s): [DLIT] (6) 36 :
30) Discuss and apply the components of the problem-solving process.

Example: Students will devise a plan to alleviate traffic congestion around the school during drop-off and pick-up.

[DLIT] (7) 21 :
15) Discuss unique perspectives and needs of a global culture when developing computational artifacts, including options for accessibility for all users.

Example: Would students create a webpage aimed at reaching a village of users that have no way access to the Internet?

[DLIT] (7) 22 :
16) Construct content designed for specific audiences through an appropriate medium.

Examples: Design a multi-media children's e-book with an appropriate readability level.

[DLIT] (7) 36 :
30) Apply the problem-solving process to solve real-world problems.

[DLIT] (8) 21 :
15) Critique computational artifacts, including options for accessibility for all users, with respect to the needs of a global culture.

[DLIT] (8) 22 :
16) Present content designed for specific audiences through an appropriate medium.

Example: Create and share a help video for a senior's center that provides tips for online safety.

[DLIT] (8) 35 :
29) Create an artifact to solve a problem using ideation and iteration in the problem-solving process.

Examples: Create a public service announcement or design a computer program, game, or application.

Subject: Digital Literacy and Computer Science (6 - 8)
Title: Computer Science Discoveries Unit 4 Chapter 2 Lesson 14: Testing the App (18-19)
URL: https://studio.code.org/s/csd4-2018/stage/14/puzzle/1
Description:

Teams run another round of user testing, this time with their interactive prototype. Feedback gathered from this round of testing will inform the final iteration of the app prototypes.

Note: You will need to create a free account on code.org before you can view this resource.



   View Standards     Standard(s): [DLIT] (6) 9 :
3) Create pseudocode that uses conditionals.

Examples: Using if/then/else (If it is raining then bring an umbrella else get wet).

[DLIT] (6) 11 :
5) Identify algorithms that make use of sequencing, selection or iteration.

Examples: Sequencing is doing steps in order (put on socks, put on shoes, tie laces); selection uses a Boolean condition to determine which of two parts of an algorithm are used (hair is dirty? True, wash hair; false, do not); iteration is the repetition of part of an algorithm until a condition is met (if you're happy and you know it clap your hands, when you're no longer happy you stop clapping).

[DLIT] (6) 36 :
30) Discuss and apply the components of the problem-solving process.

Example: Students will devise a plan to alleviate traffic congestion around the school during drop-off and pick-up.

[DLIT] (7) 8 :
2) Create complex pseudocode using conditionals and Boolean statements.

Example: Automated vacuum pseudocode — drive forward until the unit encounters an obstacle; reverse 2"; rotate 30 degrees to the left, repeat.

[DLIT] (7) 9 :
3) Create algorithms that demonstrate sequencing, selection or iteration.

Examples: Debit card transactions are approved until the account balance is insufficient to fund the transaction = iteration, do until.

[DLIT] (7) 10 :
4) Design a complex algorithm that contains sequencing, selection or iteration.

Examples: Lunch line algorithm that contains parameters for bringing your lunch and multiple options available in the lunch line.

[DLIT] (7) 11 :
5) Solve a complex problem using computational thinking.

[DLIT] (7) 12 :
6) Create and organize algorithms in order to automate a process efficiently.

Example: Set of recipes (algorithms) for preparing a complete meal.

[DLIT] (7) 22 :
16) Construct content designed for specific audiences through an appropriate medium.

Examples: Design a multi-media children's e-book with an appropriate readability level.

[DLIT] (7) 23 :
17) Publish content to be available for external feedback.

[DLIT] (8) 9 :
3) Create an algorithm using a programming language that includes the use of sequencing, selections, or iterations.

Example: Use a block-based or script programming language
Step 1: Start
Step 2: Declare variables a, b and c.
Step 3: Read variables a, b and c.
Step 4: If a>b
      If a>c
         Display a is the largest number.
     Else
         Display c is the largest number.
   Else
      If b>c
         Display b is the largest number.
      Else
         Display c is the greatest number.
Step 5: Stop

[DLIT] (8) 10 :
4) Create a function to simplify a task.

Example: 38 = 3*3*3*3*3*3*3*3; =(Average) used in a spreadsheet to average a given list of grades.

[DLIT] (8) 13 :
7) Create a program that includes selection, iteration, or abstraction, and initializes, and updates, at least two variables.

Examples: Make a game, interactive card, story, or adventure game.

[DLIT] (8) 35 :
29) Create an artifact to solve a problem using ideation and iteration in the problem-solving process.

Examples: Create a public service announcement or design a computer program, game, or application.

Subject: Digital Literacy and Computer Science (6 - 8)
Title: Computer Science Discoveries Unit 3 Chapter 2 Lesson 22: Project - Design a Game (18-19)
URL: https://studio.code.org/s/csd3-2018/stage/22/puzzle/1
Description:

The class plans and builds original games using the project guide from the previous two lessons. Working individually or in pairs, the class plans, develops, and gives feedback on the games. After incorporating the peer feedback, the class shares out the completed games.

Note: You will need to create a free account on code.org before you can view this resource.



   View Standards     Standard(s): [DLIT] (8) 35 :
29) Create an artifact to solve a problem using ideation and iteration in the problem-solving process.

Examples: Create a public service announcement or design a computer program, game, or application.

Subject: Digital Literacy and Computer Science (8)
Title: Computer Science Discoveries Unit 4 Chapter 1 Lesson 6: Identifying User Needs (18-19)
URL: https://studio.code.org/s/csd4-2018/stage/6/puzzle/1
Description:

Up to this point, the users that the class has considered have all been remote, and the only information from users has come through text or role-playing. Now the class will rely on each other as potential users, and pairs will get to interview each other to identify needs that could be addressed by developing an app.

Note: You will need to create a free account on code.org before you can view this resource.



   View Standards     Standard(s): [DLIT] (6) 29 :
23) Discuss how digital devices may be used to collect, analyze, and present information.

[DLIT] (7) 21 :
15) Discuss unique perspectives and needs of a global culture when developing computational artifacts, including options for accessibility for all users.

Example: Would students create a webpage aimed at reaching a village of users that have no way access to the Internet?

[DLIT] (7) 22 :
16) Construct content designed for specific audiences through an appropriate medium.

Examples: Design a multi-media children's e-book with an appropriate readability level.

[DLIT] (8) 22 :
16) Present content designed for specific audiences through an appropriate medium.

Example: Create and share a help video for a senior's center that provides tips for online safety.

[DLIT] (8) 35 :
29) Create an artifact to solve a problem using ideation and iteration in the problem-solving process.

Examples: Create a public service announcement or design a computer program, game, or application.

Subject: Digital Literacy and Computer Science (6 - 8)
Title: Computer Science Discoveries Unit 4 Chapter 1 Lesson 7: Project - Paper Prototype (18-19)
URL: https://studio.code.org/s/csd4-2018/stage/7/puzzle/1
Description:

Using the interview information from the previous lesson, the class comes up with app ideas to address the needs of their users. To express those ideas and test out their effectiveness, each student creates and tests paper prototypes of their own.

Note: You will need to create a free account on code.org before you can view this resource.



   View Standards     Standard(s): [DLIT] (6) 12 :
6) Identify steps in developing solutions to complex problems using computational thinking.

[DLIT] (7) 11 :
5) Solve a complex problem using computational thinking.

[DLIT] (8) 35 :
29) Create an artifact to solve a problem using ideation and iteration in the problem-solving process.

Examples: Create a public service announcement or design a computer program, game, or application.

Subject: Digital Literacy and Computer Science (6 - 8)
Title: Computer Science Discoveries Unit 2 Chapter 1 Lesson 4: Headings
URL: https://studio.code.org/s/csd2-2018/stage/4/puzzle/1
Description:

This lesson continues the introduction to HTML tags, this time with headers. The class practices using header tags to create page and section titles and learns how the different header elements are displayed by default. Next, the class plans how to organize their content on the personal web pages that will be built across the unit and begins the first page of the project.

Note: You will need to create a free account on code.org before you can view this resource.



   View Standards     Standard(s): [DLIT] (6) 12 :
6) Identify steps in developing solutions to complex problems using computational thinking.

[DLIT] (7) 11 :
5) Solve a complex problem using computational thinking.

[DLIT] (8) 35 :
29) Create an artifact to solve a problem using ideation and iteration in the problem-solving process.

Examples: Create a public service announcement or design a computer program, game, or application.

Subject: Digital Literacy and Computer Science (6 - 8)
Title: Computer Science Discoveries Unit 2 Chapter 1 Lesson 5: Digital Footprint
URL: https://studio.code.org/s/csd2-2018/stage/5/puzzle/1
Description:

This lesson takes a step back from creating the personal website to talk about personal information people choose to share digitally. The class begins by discussing what types of information are good to share with other people, then looks at several sample social media pages to see what types of personal information could be shared intentionally or unintentionally. Finally, the class comes up with a set of guidelines to follow when putting information online.

Note: You will need to create a free account on code.org before you can view this resource.



   View Standards     Standard(s): [DLIT] (6) 11 :
5) Identify algorithms that make use of sequencing, selection or iteration.

Examples: Sequencing is doing steps in order (put on socks, put on shoes, tie laces); selection uses a Boolean condition to determine which of two parts of an algorithm are used (hair is dirty? True, wash hair; false, do not); iteration is the repetition of part of an algorithm until a condition is met (if you're happy and you know it clap your hands, when you're no longer happy you stop clapping).

[DLIT] (6) 12 :
6) Identify steps in developing solutions to complex problems using computational thinking.

[DLIT] (6) 36 :
30) Discuss and apply the components of the problem-solving process.

Example: Students will devise a plan to alleviate traffic congestion around the school during drop-off and pick-up.

[DLIT] (7) 11 :
5) Solve a complex problem using computational thinking.

[DLIT] (7) 36 :
30) Apply the problem-solving process to solve real-world problems.

[DLIT] (8) 11 :
5) Discuss the efficiency of an algorithm or technology used to solve complex problems.

[DLIT] (8) 35 :
29) Create an artifact to solve a problem using ideation and iteration in the problem-solving process.

Examples: Create a public service announcement or design a computer program, game, or application.

Subject: Digital Literacy and Computer Science (6 - 8)
Title: Computer Science Discoveries Unit 1 Chapter 1 Lesson 1: Intro to Problem Solving
URL: https://studio.code.org/s/csd1-2018/stage/1/puzzle/1
Description:

The class works in groups to design aluminum foil boats that will support as many pennies as possible. At the end of the lesson, groups reflect on their experiences with the activity and make connections to the types of problem-solving they will be doing for the rest of the course.

Note: You will need to create a free account on code.org before you can view this resource.



   View Standards     Standard(s): [DLIT] (6) 29 :
23) Discuss how digital devices may be used to collect, analyze, and present information.

[DLIT] (6) 36 :
30) Discuss and apply the components of the problem-solving process.

Example: Students will devise a plan to alleviate traffic congestion around the school during drop-off and pick-up.

[DLIT] (7) 11 :
5) Solve a complex problem using computational thinking.

[DLIT] (7) 22 :
16) Construct content designed for specific audiences through an appropriate medium.

Examples: Design a multi-media children's e-book with an appropriate readability level.

[DLIT] (7) 35 :
29) Compare and contrast human intelligence and artificial intelligence.

[DLIT] (8) 22 :
16) Present content designed for specific audiences through an appropriate medium.

Example: Create and share a help video for a senior's center that provides tips for online safety.

[DLIT] (8) 29 :
23) Design a digital artifact to propose a solution for a content-related problem.

Example: Create a presentation outlining how to create a cost-efficient method to melt snow on roads during the winter.

[DLIT] (8) 35 :
29) Create an artifact to solve a problem using ideation and iteration in the problem-solving process.

Examples: Create a public service announcement or design a computer program, game, or application.

Subject: Digital Literacy and Computer Science (6 - 8)
Title: Computer Science Discoveries Unit 1 Chapter 2 Lesson 8: Propose an App
URL: https://studio.code.org/s/csd1-2018/stage/8/puzzle/1
Description:

To conclude the study of the problem-solving process and the input/output/store/process model of a computer, the class proposes apps designed to solve real-world problems. This project is completed across multiple days and culminates in a poster presentation highlighting the features of each app. The project is designed to be completed in pairs though it can be completed individually.

Note: You will need to create a free account on code.org before you can view this resource.



ALEX Classroom Resources: 20

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