Art

Learning Resource Type

Classroom Resource

Subject Area

Digital Literacy and Computer Science

Grade(s)

3, 4, 5, 6, 7, 8

Overview

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.

Digital Literacy and Computer Science (2018) Grade(s): 3

DLCS18.3.2
Analyze a given list of sub-problems while addressing a larger problem.

Vocabulary

sub-problem

Knowledge

Students know:

strategies for analyzing sub-problems from a given list for a larger problem.

Skills

Students are able to:

analyze given lists of sub-problems while addressing a larger problem.
identify the sub-problems for a larger problem.

Understanding

Students understand that:

larger problems have sub-problems.
it can be easier to solve a large problem if you identify smaller sub-problems to tackle or solve.

Digital Literacy and Computer Science (2018) Grade(s): 3

DLCS18.3.7
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.

Vocabulary

test
debug
program
block-based visual programming environment
arithmetic operators
conditionals
repetition

Knowledge

Students know:

strategies for debugging a given program.
arithmetic operators create a single numerical solution from multiple oprations.
conditionals are "if, then" statements that direct the program.

Skills

Students are able to:

test a given program in a block-based visual programming environment using arithmetic operators, conditionals, and repetition in programs, in collaboration with others.
debug a given program in a block-based visual programming environment using arithmetic operators, conditionals, and repetition in programs, in collaboration with others.

Understanding

Students understand that:

a given program must be tested and debugged to run correctly.
block-based visual programming uses arithemetic operators, conditionals, and repetition to function.

Digital Literacy and Computer Science (2018) Grade(s): 4

DLCS18.4.2
Formulate a list of sub-problems to consider while addressing a larger problem.

Vocabulary

formulate
sub-problems

Knowledge

Students know:

a list of sub-problems need to be considered in order to address a larger problem.
strategies to develop a list of sub-problems.

Skills

Students are able to:

formulate a list of sub-problems to consider while addressing a larger problem.

Understanding

Students understand that:

a list of sub-problems need to be considered to address a larger problem.

Digital Literacy and Computer Science (2018) Grade(s): 4

DLCS18.4.3
Show that different solutions exist for the same problem or sub-problem.

Vocabulary

solution

Knowledge

Students know:

strategies for developing different solutions for the same problem or sub-problem.
that different solutions exist for the same problem or sub-problem.

Skills

Students are able to:

show that different solutions exist for the same problem or sub-problem.

Understanding

Students understand that:

different solutions exist for the same problem or sub-problem.

Digital Literacy and Computer Science (2018) Grade(s): 4

DLCS18.4.4
Detect and debug logical errors in various basic algorithms.

Vocabulary

detect
debug
logical
errors
algorithms

Knowledge

Students know:

strategies to detect logical errors in various basic algorithms.
strategies to debug or repair logical errors in various basic algorithms.

Skills

Students are able to:

detect and debug logical errors in various basic algorithms.

Understanding

Students understand:

how to detect and debug logical errors in various basic algorithms.

strategies to detect and debug logical errors in various basic algorithms.

Digital Literacy and Computer Science (2018) Grade(s): 4

DLCS18.4.7
Create a working program in a block-based visual programming environment using arithmetic operators, conditionals, and repetition in programs, in collaboration with others.

Vocabulary

program
block-based visual programming environment
arithmetic operators
conditionals
repetition

Knowledge

Students know:

the definitions for arithmetic operators, conditionals, and repetition as they relate to programming.
strategies for collaborating with peers.

Skills

Students are able to:

create a working program in a block-based visual programming environment using arithmetic operators, conditionals, and repetition in programs.
implement strategies to collaborate with others.

Understanding

Students understand that:

operators in programming make many options available, reducing the length of an alorithm, pseudocode, or program.

Digital Literacy and Computer Science (2018) Grade(s): 5

DLCS18.5.2
Create an algorithm to solve a problem while detecting and debugging logical errors within the algorithm.

Vocabulary

algorithm
debug
detect
logical errors

Knowledge

Students know:

an algorithm is a logical set of steps to solve a problem.
detecting and debugging logical errors within an algorithm will ensure the algorithm serves to solve a problem successfully.

Skills

Students are able to:

create an algorithm to solve a problem while detecting and debugging logical errors within the algorithm.

Understanding

Students understand that:

debugging an algorithm is searching for logical errors within the algorithm.
an algorithm is a set of steps to solve a problem.
how to create an algorithm to solve a problem while detecting and debugging logical errors within the algorithm.

Digital Literacy and Computer Science (2018) Grade(s): 5

DLCS18.5.6
Create a working program in a block-based visual programming environment using arithmetic operators, conditionals, and repetition in programs.

Vocabulary

program
block-based visual programming
environment
arithmetic operators
conditionals
repetition

Knowledge

Students know:

how to create a working program in a block-based visual programming environment.
reasons for using arithmetic operators, conditionals, and repetition in programs.

Skills

Students are able to:

create a working program in a block-based visual programming environment using arithmetic operators, conditionals, and repetition in programs.

Understanding

Students understand that:

arithmetic operators, conditionals, and repetition in programs make more operations possible and can reduce the complexity or length of code.

Digital Literacy and Computer Science (2018) Grade(s): 5

DLCS18.5.8
Demonstrate that programs require known starting values that may need to be updated appropriately during the execution of programs.

Vocabulary

starting value
execution of programs
initial value
updating variables

Knowledge

Students know:

that for a program to run properly, the starting value may need to be set when the program begins.

Skills

Students are able to:

explain a scenario in which starting value is important to a program.

Understanding

Students understand that:

programs require known starting values that may need to be updated appropriately during the execution of programs.

Digital Literacy and Computer Science (2018) Grade(s): 6

DLCS18.6.1
Remove background details from an everyday process to highlight essential properties.

Vocabulary

process
essential properties

Knowledge

Students know:

how to identify details and descriptors

Skills

Students are able to:

remove descriptors, only leaving essential details

Understanding

Students understand that:

descriptors assist in visualizing a process but do not affect the root process.

Digital Literacy and Computer Science (2018) Grade(s): 6

DLCS18.6.8
Create a program that initializes a variable.

Vocabulary

initialize

Knowledge

Students know:

that updating a variable during a program changes the initial value set, so variables need to be initialized (set to the original value) at the start or end of a task or program.

Skills

Students are able to:

set variables back to their original values upon start
up or completion of a task or program.

Understanding

Students understand that:

variables need to be initialized for programs to work properly more than once.

Digital Literacy and Computer Science (2018) Grade(s): 7

DLCS18.7.6
Create and organize algorithms in order to automate a process efficiently.

Vocabulary

algorithm

Knowledge

Students know:

algorithms can be used to automate a process efficiently.

Skills

Students are able to:

use search and sort algorithms to automate organizing a set.

Understanding

Students understand that:

algorithms organized and applied to the appropriate task can significant increase proficiency.

Digital Literacy and Computer Science (2018) Grade(s): 7

DLCS18.7.7
Create a program that updates the value of a variable in the program.

Vocabulary

program
value

Knowledge

Students know:

how to update variables throughout their programs.

Skills

Students are able to:

write complex programs where variables can be changed while a program is running.

Understanding

Students understand that:

variables can be changed while a program runs.
changes to variables could trigger other events within a program.

Digital Literacy and Computer Science (2018) Grade(s): 7

DLCS18.7.8
Formulate a narrative for each step of a process and its intended result, given pseudocode or code.

Vocabulary

narrative
pseudocode

Knowledge

Students know:

that a narrative is a spoken or written account of events.

Skills

Students are able to:

identify the intended process in a given code or pseudocode.
convert given code or pseudocode to a narrative of expected behavior.

Understanding

Students understand that:

every line of code has an intended behavior.

Digital Literacy and Computer Science (2018) Grade(s): 8

DLCS18.8.3
Create an algorithm using a programming language that includes the use of sequencing, selections, or iterations.

Vocabulary

algorithm
sequence
selection
iteration

Knowledge

Students know:

how to use a programming language to create algorithms that make use of sequencing, selections, or iterations.

Skills

Students are able to:

create programs to make use of sequencing, selections, or iterations.

Understanding

Students understand that:

each programming language has a unique way of making use of sequencing, selections, and iterations in algorithms.

Digital Literacy and Computer Science (2018) Grade(s): 8

DLCS18.8.7
Create a program that includes selection, iteration, or abstraction, and initializes, and updates, at least two variables.

Vocabulary

selection
iteration
abstraction
initialize
variables

Knowledge

Students know:

how to write a program that includes selection, iteration, abstraction, initialization, and updates variables.

Skills

Students are able to:

write a program that includes foundational programming concepts
selection, iteration, abstraction, initialization, and updating variables.

Understanding

Students understand that:

they have the ability to create and design programs they may have never considered themselves able to do so.

Digital Literacy and Computer Science (2018) Grade(s): 8

DLCS18.8.23
Design a digital artifact to propose a solution for a content-related problem.

Knowledge

Students know:

that often there exists many solutions to a problem.

Skills

Students are able to:

design an artifact to propose a solution to a problem.

Understanding

Students understand that:

the presentation of an artifact can be as important as the solution.

Digital Literacy and Computer Science (2018) Grade(s): 8

DLCS18.8.29
Create an artifact to solve a problem using ideation and iteration in the problem-solving process.

Vocabulary

ideation
iteration
problem-solving process

Knowledge

Students know:

that problem solving is a process to find the best solution.
that through ideation and iteration, the final product or artifact may be a more polished or appropriate solution.

Skills

Students are able to:

gather initial data about a topic.
informally propose a solution.
gather feedback on informal proposal.
design a solution to a chosen problem.

Understanding

Students understand that:

problem-solving is a process.
products or artifacts may undergo many revisions after data is reviewed and feedback is received.

CR Resource Type

Lesson/Unit Plan

Resource Provider

Google CS First

License Type

Custom

https://csfirst.withgoogle.com/c/cs-first/en/art/overview.html

Custom License Type (URL)

https://www.google.com/intl/en/policies/terms/

Accessibility

Video resources: includes closed captioning or subtitles

Comments or Notes

CS First is a free resource. Teachers and students need to create a free account to access lessons.

Approved Date

2019-07-09

Learning Resource Type

Subject Area

Grade(s)

Overview

DLCS18.3.2 Analyze a given list of sub-problems while addressing a larger problem.

Vocabulary

Knowledge

Skills

Understanding

DLCS18.3.7 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.

Vocabulary

Knowledge

Skills

Understanding

DLCS18.4.2 Formulate a list of sub-problems to consider while addressing a larger problem.

Vocabulary

Knowledge

Skills

Understanding

DLCS18.4.3 Show that different solutions exist for the same problem or sub-problem.

Vocabulary

Knowledge

Skills

Understanding

DLCS18.4.4 Detect and debug logical errors in various basic algorithms.

Vocabulary

Knowledge

Skills

Understanding

DLCS18.4.7 Create a working program in a block-based visual programming environment using arithmetic operators, conditionals, and repetition in programs, in collaboration with others.

Vocabulary

Knowledge

Skills

Understanding

DLCS18.5.2 Create an algorithm to solve a problem while detecting and debugging logical errors within the algorithm.

Vocabulary

Knowledge

Skills

Understanding

DLCS18.5.6 Create a working program in a block-based visual programming environment using arithmetic operators, conditionals, and repetition in programs.

Vocabulary

Knowledge

Skills

Understanding

DLCS18.5.8 Demonstrate that programs require known starting values that may need to be updated appropriately during the execution of programs.

Vocabulary

Knowledge

Skills

Understanding

DLCS18.6.1 Remove background details from an everyday process to highlight essential properties.

Vocabulary

Knowledge

Skills

Understanding

DLCS18.6.8 Create a program that initializes a variable.

Vocabulary

Knowledge

Skills

Understanding

DLCS18.7.6 Create and organize algorithms in order to automate a process efficiently.

Vocabulary

Knowledge

Skills

Understanding

DLCS18.7.7 Create a program that updates the value of a variable in the program.

Vocabulary

Knowledge

Skills

Understanding

DLCS18.7.8 Formulate a narrative for each step of a process and its intended result, given pseudocode or code.

Vocabulary

Knowledge

Skills

Understanding

DLCS18.8.3 Create an algorithm using a programming language that includes the use of sequencing, selections, or iterations.

Vocabulary

Knowledge

Skills

Understanding

DLCS18.3.2
Analyze a given list of sub-problems while addressing a larger problem.

DLCS18.3.7
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.

DLCS18.4.2
Formulate a list of sub-problems to consider while addressing a larger problem.

DLCS18.4.3
Show that different solutions exist for the same problem or sub-problem.

DLCS18.4.4
Detect and debug logical errors in various basic algorithms.

DLCS18.4.7
Create a working program in a block-based visual programming environment using arithmetic operators, conditionals, and repetition in programs, in collaboration with others.

DLCS18.5.2
Create an algorithm to solve a problem while detecting and debugging logical errors within the algorithm.

DLCS18.5.6
Create a working program in a block-based visual programming environment using arithmetic operators, conditionals, and repetition in programs.

DLCS18.5.8
Demonstrate that programs require known starting values that may need to be updated appropriately during the execution of programs.

DLCS18.6.1
Remove background details from an everyday process to highlight essential properties.

DLCS18.6.8
Create a program that initializes a variable.

DLCS18.7.6
Create and organize algorithms in order to automate a process efficiently.

DLCS18.7.7
Create a program that updates the value of a variable in the program.

DLCS18.7.8
Formulate a narrative for each step of a process and its intended result, given pseudocode or code.

DLCS18.8.3
Create an algorithm using a programming language that includes the use of sequencing, selections, or iterations.

DLCS18.8.7
Create a program that includes selection, iteration, or abstraction, and initializes, and updates, at least two variables.

DLCS18.8.23
Design a digital artifact to propose a solution for a content-related problem.

DLCS18.8.29
Create an artifact to solve a problem using ideation and iteration in the problem-solving process.