This unplugged lesson brings together teams with a simple task: get the …
This unplugged lesson brings together teams with a simple task: get the "flurb" to the fruit. Students will practice writing precise instructions as they work to translate instructions into the symbols provided. If problems arise in the code, students should also work together to recognize bugs and build solutions.
Using Scrat from the Ice Age franchise, students will develop sequential algorithms …
Using Scrat from the Ice Age franchise, students will develop sequential algorithms to move a squirrel character from one side of a maze to the acorn at the other side. To do this they will stack code blocks together in a linear sequence.
Using characters from the Ice Age, students will develop sequential algorithms to …
Using characters from the Ice Age, students will develop sequential algorithms to move Scrat from one side of a maze to the acorn at the other side. To do this they will stack code blocks together in a linear sequence, making them move straight, turn left, or turn right.
This activity revisits Happy Maps. This time, student will be solving bigger, …
This activity revisits Happy Maps. This time, student will be solving bigger, longer puzzles with their code, leading them to see utility in structures that let them write longer code in an easier way.
Building on the concept of repeating instructions from "Happy Loops," this stage …
Building on the concept of repeating instructions from "Happy Loops," this stage will have students using loops to get to the acorn more efficiently on Code.org.
In this lesson, students continue learning the concept of loops. In the …
In this lesson, students continue learning the concept of loops. In the previous lesson, students were introduced to loops by moving through a maze and picking corn. Here, loops are used to collect treasure in open cave spaces.
This lesson has students recognize that computer science can help people in …
This lesson has students recognize that computer science can help people in real life. First, students empathize with several fictional smartphone users in order to help them find the “right app” that addresses their needs. Then, students exercise empathy and creativity to sketch their own smartphone app that addresses the needs of one additional user.
Events are a great way to add variety to a pre-written algorithm. …
Events are a great way to add variety to a pre-written algorithm. Sometimes you want your program to be able to respond to the user exactly when the user wants it to. That is what events are for.
In this online activity, students will have the opportunity to learn how …
In this online activity, students will have the opportunity to learn how to use events in Play Lab and apply all of the coding skills that they've learned to create an animated game. It's time to get creative and make a game in Play Lab!
In collaboration with **Common Sense Education**, this lesson helps students learn about …
In collaboration with **Common Sense Education**, this lesson helps students learn about the similarities of staying safe in the real world and when visiting websites. Students will also learn that the information they put online leaves a digital footprint or “trail.” This trail can be big or small, helpful or hurtful, depending on how they manage it.
This lesson will work to prepare students mentally for the coding exercises …
This lesson will work to prepare students mentally for the coding exercises that they will encounter over the length of this course. In small teams, students will use physical activity to program their classmates to step carefully from place to place until a goal is achieved.
Using characters from Angry Birds, students will develop sequential algorithms to move …
Using characters from Angry Birds, students will develop sequential algorithms to move a bird from one side of a maze to the pig at the other side. To do this they will stack code blocks together in a linear sequence.
Using characters from the game Angry Birds, students will develop sequential algorithms …
Using characters from the game Angry Birds, students will develop sequential algorithms to move a bird from one side of a maze to the pig at the other side. To do this they will stack code blocks together in a linear sequence.
Students will apply the programming concepts that they have learned to the …
Students will apply the programming concepts that they have learned to the Harvester environment. Now, instead of just getting the character to a goal, students have to collect corn using a new block. Students will continue to develop sequential algorithm skills and start using the debugging process.
As we start to write longer and more interesting programs, our code …
As we start to write longer and more interesting programs, our code often contains a lot of repetition. In this lesson, students will learn about how loops can be used to more easily communicate instructions that have a lot of repetition by looking at the repeated patterns of movement in a dance.
Building on the concept of repeating instructions from "Getting Loopy," this stage …
Building on the concept of repeating instructions from "Getting Loopy," this stage will have students using loops to pick corn more efficiently on Code.org.
In this lesson, students continue learning the concept of loops. Here, Laurel …
In this lesson, students continue learning the concept of loops. Here, Laurel the Adventurer uses loops to collect treasure in open cave spaces. A new `get treasure` block is introduced to help her on her journey.
Returning to loops, students learn to draw images by looping simple sequences …
Returning to loops, students learn to draw images by looping simple sequences of instructions. In the previous online lesson, loops were used to traverse a maze and collect treasure. Here, students use loops to create patterns. At the end of this stage, students will be given the opportunity to create their own images using loops.
Building on the concept of repeating instructions from "Getting Loopy," this stage …
Building on the concept of repeating instructions from "Getting Loopy," this stage will have students using loops to help BB-8 traverse a maze more efficiently than before.
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