| Name |
Description |
| SC.3.CC.1.1: | Describe how collaborating with others can be beneficial to a project.Clarifications:
Clarification 1: Instruction includes understanding how collaborating includes brainstorming or sharing ideas with one another. |
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| SC.3.CC.1.2: | Use feedback from peers to make revisions using technology.Clarifications:
Clarification 1: Instruction includes asking questions of self and others on their work. Clarification 2: Feedback should be constructive. |
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| SC.3.CC.1.3: | Explain that searches may be enhanced by key terms.
Examples:
Example: Students use a shoe brand website to find a particular type of shoe, then they narrow their search by typing more descriptive words into the search bar like size and color. Finally, they add a sport to the search to see more specific results. Students compare the results from each search. |
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| SC.3.CC.1.4: | Describe how computer simulations can help communicate ideas in concepts or problem-solving.
Examples:
Example: Describe how a computer simulation can model the water cycle. |
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| SC.3.CC.2.1: | Identify uses of technology when sending communication over the Internet.Clarifications:
Clarification 1: Instruction includes Netiquette depending on the audience and type of communication. Clarification 2: Instruction includes email, texting, uploads, surveys and screen shots.
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| SC.3.CC.2.2: | Describe responsible uses of modern communication media and devices.Clarifications:
Clarification 1: Instruction includes safe practices that include making sure your personal information is protected. Examples might be your information or your family’s information, real names, addresses, phone numbers, credit card numbers and photographs. Clarification 2: Instruction includes respecting the personal information of others. |
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| SC.3.CO.1.1: | Classify hardware as input, output, both or neither. |
| SC.3.CO.1.2: | Use the keyboard of a computer to write short paragraphs or short stories.Clarifications:
Clarification 1: Instruction includes the correct use of punctuation and capitalization. |
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| SC.3.CO.1.3: | Identify digital tools used for writing activities.Clarifications:
Clarification 1: Instruction includes using digital tools such as word processing, emails and text messages. |
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| SC.3.CO.1.4: | Identify digital tools for data collection.Clarifications:
Clarification 1: Instruction includes using digital tools such as tables, cameras and online forms or surveys. |
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| SC.3.CO.1.5: | Use digital tools for sharing information.Clarifications:
Clarification 1: Instruction includes using digital tools such as slideshows, presentation software or storyboards. Clarification 2: Instruction includes explaining why one might select that specific tool. |
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| SC.3.CO.1.6: | Apply self-editing practices to improve accuracy.Clarifications:
Clarification 1: Instruction includes accuracy within any activity, such as writing a prompt or creating a digital project. Clarification 2: Instruction includes the use of built-in tools for grammar and spelling within software. |
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| SC.3.CO.1.7: | Categorize software based on its main purpose.Clarifications:
Clarification 1: Instruction includes discussion of different software products and their primary purpose. Clarification 2: Instruction includes discussion of productivity, entertainment, communication, presentation, collaboration and organization. |
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| SC.3.CO.1.8: | Introduce how network systems are part of a global communication network.Clarifications:
Clarification 1: Instruction includes how anyone can access a website from anywhere at any time. |
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| SC.3.HS.1.1: | Discuss the need for parental control settings on network- capable devices.Clarifications:
Clarification 1: Instruction includes reasons that some sites and devices have parental control settings. |
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| SC.3.HS.1.2: | Discuss why some sites or games have age requirements.Clarifications:
Clarification 1: Instruction includes age ratings on games and videos, and age requirements to certain websites. |
Examples:
Example: Johnny tries to get on a website to play a new video game. The website asks for his age. When he inputs his age, the website says that he is not allowed to enter. Discuss reasons his age would prevent him from playing the game. |
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| SC.3.HS.1.3: | Explain what actions should be taken if students are either victims or witnesses of cyberbullying or harassment.Clarifications:
Clarification 1: Instruction includes providing information or evidence to authority figures or Fortify Florida to show authority figures, recordings, emails or photos. Clarification 2: Students should understand that they should not engage with the cyberbully and block or mute all communication. |
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| SC.3.HS.2.1: | Explore ways to balance movement and screen time.Clarifications:
Clarification 1: Instruction includes that for every 20 minutes of screen time, students look at an object 20 feet away for 20 seconds. Clarification 2: Instruction includes identifying ways to incorporate physical movement. |
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| SC.3.HS.2.2: | Demonstrate the use of healthy digital habits. |
| SC.3.PE.1.1: | Explore using graphics, blocks or visual cues to design a program.Clarifications:
Clarification 1: Instruction includes using graphics or visual cues to represent a list of directions. |
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| SC.3.PE.1.2: | Create a program that includes user choices based on defined conditions.
Examples:
Example: Create an algorithm that describes your daily routine for getting ready based on the weather. |
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| SC.3.PE.2.1: | Collect data using a digital tool. |
| SC.3.PE.2.2: | Compile data collected and draw conclusions based on trends.Clarifications:
Clarification 1: Instruction includes analyzing charts, graphs or tables to answer questions and draw conclusions. |
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| SC.3.PE.2.3: | Analyze data for trends. |
| SC.3.PE.3.1: | Create a repeatable pattern to solve a problem. |
| SC.3.PE.3.2: | Demonstrate how programs written differently can have the same outcome.Clarifications:
Clarification 1: Instruction includes identifying or explaining how multiple approaches can lead to a desired outcome or goal. |
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| SC.3.PE.3.3: | Use graphical programming or visual cues to represent a set of instructions (algorithm) that includes repetition.
Examples:
Example: Create an algorithm that describes your daily routine before you go to bed. Use words, phrases, pictures or symbols to create your algorithm. |
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| SC.3.PE.3.4: | Create a model or a simulation of a system and explain what the model shows.Clarifications:
Clarification 1: Instruction includes models such as plant growth, solar systems and changes in matter. |
Examples:
Example: Create a model that shows the role of water and nutrient transport within plants. |
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| SC.3.PE.3.5: | Explain the process of sorting information into a useful order. |
| SC.3.TI.1.1: | Summarize how different types of computing devices are used to communicate with others on a daily basis.Clarifications:
Clarification 1: Instruction includes devices such as cell phones, tablets and similar electronic communication devices. |
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| SC.3.TI.1.2: | Identify adaptive technology and discuss how it has changed over time.Clarifications:
Clarification 1: Instruction includes understanding that using adaptive technology can be a benefit to everyone. Clarification 2: Adaptive technology includes screen readers, oversized keyboards, text-to-speech, highlighters, masking, subtitles, braille displays and language translators. Clarification 3: Instruction includes discussing ways in which people with varying needs access adaptive technology. |
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| SC.3.TI.1.3: | Discuss the uses of Artificial Intelligence (AI) in daily life. |
| SC.3.TI.2.1: | Demonstrate awareness of copyright laws to show respect for the ideas of others when using digital artifacts.Clarifications:
Clarification 1: Instruction includes understanding that some digital artifacts are free to use while others are not. Clarification 2: Instruction includes digital artifacts referring to text sources, images, videos and files.
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| SC.3.TI.2.2: | Identify various digital artifacts and whether they are copyrighted or trademarked. |
| SC.3.TI.2.3: | Cite evidence using direct and indirect citations.Clarifications:
Clarification 1: Instruction includes using relevant textual evidence in written and oral communication. Clarification 2: Instruction includes students naming the text or source.
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| SC.3.TI.2.4: | Identify digital information resources used to answer research questions.Clarifications:
Clarification 1: Instruction includes resources such as online library catalog, encyclopedias, databases, search engines and websites. Clarification 2: Instruction includes making sure that students are using reliable resources. |
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| SC.K12.CTR.1.1: | Actively participate in effortful learning both individually and collaboratively.
Students who actively participate in effortful learning both individually and with others:- Build perseverance by modifying methods as needed while solving a challenging task.
- Stay engaged and maintain a positive mindset when working to solve tasks.
- Help and support each other when attempting a new method or approach.
Clarifications:
Teachers who encourage students to participate actively in effortful learning both individually and with others:- Cultivate a community of learners.
- Foster perseverance in students by choosing challenging tasks.
- Recognize students’ effort when solving challenging problems.
- Emphasize project-based learning.
- Establish a culture in which students ask questions of the teacher and their peers, and errors as a learning opportunity.
- Develop students’ ability to justify methods and compare their responses to the responses of their peers.
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| SC.K12.CTR.2.1: | Demonstrate understanding by decomposing a problem.
Students who demonstrate understanding by decomposing a problem:- Analyze the problems in a way that makes sense given the task.
- Ask questions that will help with solving the task.
- Break down complex problems into individual problems.
- Decompose a complex problem into manageable parts.
Clarifications:
Teachers who encourage students to demonstrate understanding by decomposing a problem: - Develop students’ ability to analyze and problem-solve.
- Help students break complex tasks into subtasks.
- Show students that the solution to individual parts allows them to solve complex problems more effectively.
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| SC.K12.CTR.3.1: | Complete tasks with digital fluency.
Students who complete tasks with digital fluency:Select and use appropriate digital tools by their functions. - Demonstrate proper typing techniques and keyboarding skills.
- Understand responsible technology use.
- Use feedback to improve efficiency using digital tools.
- Relate previously learned concepts to new concepts.
- Solve problems by developing, testing and refining technological processes.
Clarifications:
Teachers who encourage students to complete tasks with digital fluency: - Provide students with opportunities to increase critical thinking skills.
- Provide students with opportunities to use various technology hardware and software, so that technology is an integral part of the learning experience.
Develop students’ ability to construct relationships between their current understanding and more sophisticated ways of thinking.
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| SC.K12.CTR.4.1: | Express solutions as computational steps.
Students who express solutions as computational steps: - Solve problems step by step rather than all at once.
- Represent solutions to problems in multiple ways, based on context or purpose.
- Use patterns and structures to understand and connect computational concepts.
- Check computations when solving problems.
Clarifications:
Teachers who encourage students to express solutions as computational steps: - Provide opportunities for students to develop sequentially based understandings of problems.
- Guide students to align tasks to a step-by-step solution.
- Select sequence and present student work to advance and deepen understanding of correct and increasingly efficient methods.
- Prompt students to continually ask, “Does this solution make sense? How do you know?”
- Reinforce that students check their work as they progress within and after a task.
- Strengthen students’ ability to verify solutions through justification.
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| SC.K12.CTR.5.1: | Create an algorithm to achieve a given goal.
Students who create algorithms to achieve a given goal: - Create or use a well-defined series of steps to achieve a desired outcome.
- Compare the efficiency of an algorithm to those expressed by others.
- Design a sequence of steps to follow.
- Verify possible solutions by explaining the program or methods used.
Clarifications:
Teachers who encourage students to create an algorithm to achieve a given goal: - Support students to develop generalizations based on the similarities found among problems.
- Have students estimate or predict solutions before solving.
- Help students recognize the patterns in the world around them and connect these patterns to other concepts.
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| SC.K12.CTR.6.1: | Differentiate between usable data and miscellaneous information.
Students who differentiate between usable data and miscellaneous information: - Express connections between concepts and representations.
- Construct possible arguments based on evidence.
- Perform decision-making between two actions.
- Practice evaluating information and sources.
- Perform investigations to gather data or determine if a program or method is appropriate.
- Discern relevant, meaningful data from irrelevant or extraneous information.
- Understand the characteristics and criteria determining whether data is relevant to a specific problem or task.
Clarifications:
Teachers who encourage students to differentiate between useable data and miscellaneous information: - Support students as they validate conclusions by comparing them to the given situation.
- Create opportunities for students to discuss their thinking with peers.
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| SC.K12.CTR.7.1: | Solve real-life problems in science and engineering using computational thinking.
Students who solve real-life problems in science and engineering using computational thinking: - Adapt procedures to find solutions and apply them to a new context.
- Look for similarities among problems.
- Connect solutions of problems to more complicated large-scale situations.
- Connect concepts to everyday experiences.
- Use programs, models and methods to understand, represent and solve problems.
- Indicate how various concepts can be applied to other disciplines.
- Redesign programs, models and methods to improve accuracy or efficiency. Evaluate results based on the given context.
Clarifications:
Teachers who encourage students to solve real-life problems in science and engineering using computational thinking: - Create learning opportunities that require logical reasoning and problem-solving skills.
- Provide opportunities for students to create plans and procedures to solve problems.
- Provide opportunities for students to create programs or models, both concrete and abstract, and perform investigations.
- Challenge students to question the accuracy of their programs, models and methods.
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| MA.K12.MTR.1.1: | Actively participate in effortful learning both individually and collectively. Mathematicians who participate in effortful learning both individually and with others:
- Analyze the problem in a way that makes sense given the task.
- Ask questions that will help with solving the task.
- Build perseverance by modifying methods as needed while solving a challenging task.
- Stay engaged and maintain a positive mindset when working to solve tasks.
- Help and support each other when attempting a new method or approach.
Clarifications:
Teachers who encourage students to participate actively in effortful learning both individually and with others:
- Cultivate a community of growth mindset learners.
- Foster perseverance in students by choosing tasks that are challenging.
- Develop students’ ability to analyze and problem solve.
- Recognize students’ effort when solving challenging problems.
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| MA.K12.MTR.2.1: | Demonstrate understanding by representing problems in multiple ways. Mathematicians who demonstrate understanding by representing problems in multiple ways: - Build understanding through modeling and using manipulatives.
- Represent solutions to problems in multiple ways using objects, drawings, tables, graphs and equations.
- Progress from modeling problems with objects and drawings to using algorithms and equations.
- Express connections between concepts and representations.
- Choose a representation based on the given context or purpose.
Clarifications:
Teachers who encourage students to demonstrate understanding by representing problems in multiple ways: - Help students make connections between concepts and representations.
- Provide opportunities for students to use manipulatives when investigating concepts.
- Guide students from concrete to pictorial to abstract representations as understanding progresses.
- Show students that various representations can have different purposes and can be useful in different situations.
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| MA.K12.MTR.3.1: | Complete tasks with mathematical fluency. Mathematicians who complete tasks with mathematical fluency: - Select efficient and appropriate methods for solving problems within the given context.
- Maintain flexibility and accuracy while performing procedures and mental calculations.
- Complete tasks accurately and with confidence.
- Adapt procedures to apply them to a new context.
- Use feedback to improve efficiency when performing calculations.
Clarifications:
Teachers who encourage students to complete tasks with mathematical fluency:- Provide students with the flexibility to solve problems by selecting a procedure that allows them to solve efficiently and accurately.
- Offer multiple opportunities for students to practice efficient and generalizable methods.
- Provide opportunities for students to reflect on the method they used and determine if a more efficient method could have been used.
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| MA.K12.MTR.4.1: | Engage in discussions that reflect on the mathematical thinking of self and others. Mathematicians who engage in discussions that reflect on the mathematical thinking of self and others: - Communicate mathematical ideas, vocabulary and methods effectively.
- Analyze the mathematical thinking of others.
- Compare the efficiency of a method to those expressed by others.
- Recognize errors and suggest how to correctly solve the task.
- Justify results by explaining methods and processes.
- Construct possible arguments based on evidence.
Clarifications:
Teachers who encourage students to engage in discussions that reflect on the mathematical thinking of self and others:- Establish a culture in which students ask questions of the teacher and their peers, and error is an opportunity for learning.
- Create opportunities for students to discuss their thinking with peers.
- Select, sequence and present student work to advance and deepen understanding of correct and increasingly efficient methods.
- Develop students’ ability to justify methods and compare their responses to the responses of their peers.
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| MA.K12.MTR.5.1: | Use patterns and structure to help understand and connect mathematical concepts. Mathematicians who use patterns and structure to help understand and connect mathematical concepts: - Focus on relevant details within a problem.
- Create plans and procedures to logically order events, steps or ideas to solve problems.
- Decompose a complex problem into manageable parts.
- Relate previously learned concepts to new concepts.
- Look for similarities among problems.
- Connect solutions of problems to more complicated large-scale situations.
Clarifications:
Teachers who encourage students to use patterns and structure to help understand and connect mathematical concepts:- Help students recognize the patterns in the world around them and connect these patterns to mathematical concepts.
- Support students to develop generalizations based on the similarities found among problems.
- Provide opportunities for students to create plans and procedures to solve problems.
- Develop students’ ability to construct relationships between their current understanding and more sophisticated ways of thinking.
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| MA.K12.MTR.6.1: | Assess the reasonableness of solutions. Mathematicians who assess the reasonableness of solutions: - Estimate to discover possible solutions.
- Use benchmark quantities to determine if a solution makes sense.
- Check calculations when solving problems.
- Verify possible solutions by explaining the methods used.
- Evaluate results based on the given context.
Clarifications:
Teachers who encourage students to assess the reasonableness of solutions:- Have students estimate or predict solutions prior to solving.
- Prompt students to continually ask, “Does this solution make sense? How do you know?”
- Reinforce that students check their work as they progress within and after a task.
- Strengthen students’ ability to verify solutions through justifications.
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| MA.K12.MTR.7.1: | Apply mathematics to real-world contexts. Mathematicians who apply mathematics to real-world contexts: - Connect mathematical concepts to everyday experiences.
- Use models and methods to understand, represent and solve problems.
- Perform investigations to gather data or determine if a method is appropriate.
• Redesign models and methods to improve accuracy or efficiency.
Clarifications:
Teachers who encourage students to apply mathematics to real-world contexts:- Provide opportunities for students to create models, both concrete and abstract, and perform investigations.
- Challenge students to question the accuracy of their models and methods.
- Support students as they validate conclusions by comparing them to the given situation.
- Indicate how various concepts can be applied to other disciplines.
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| ELA.K12.EE.1.1: | Cite evidence to explain and justify reasoning.Clarifications:
K-1 Students include textual evidence in their oral communication with guidance and support from adults. The evidence can consist of details from the text without naming the text. During 1st grade, students learn how to incorporate the evidence in their writing.2-3 Students include relevant textual evidence in their written and oral communication. Students should name the text when they refer to it. In 3rd grade, students should use a combination of direct and indirect citations. 4-5 Students continue with previous skills and reference comments made by speakers and peers. Students cite texts that they’ve directly quoted, paraphrased, or used for information. When writing, students will use the form of citation dictated by the instructor or the style guide referenced by the instructor. 6-8 Students continue with previous skills and use a style guide to create a proper citation. 9-12 Students continue with previous skills and should be aware of existing style guides and the ways in which they differ.
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| ELA.K12.EE.2.1: | Read and comprehend grade-level complex texts proficiently.Clarifications:
See Text Complexity for grade-level complexity bands and a text complexity rubric. |
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| ELA.K12.EE.3.1: | Make inferences to support comprehension.Clarifications:
Students will make inferences before the words infer or inference are introduced. Kindergarten students will answer questions like “Why is the girl smiling?” or make predictions about what will happen based on the title page.
Students will use the terms and apply them in 2nd grade and beyond. |
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| ELA.K12.EE.4.1: | Use appropriate collaborative techniques and active listening skills when engaging in discussions in a variety of situations.Clarifications:
In kindergarten, students learn to listen to one another respectfully.In grades 1-2, students build upon these skills by justifying what they are thinking. For example: “I think ________ because _______.” The collaborative conversations are becoming academic conversations. In grades 3-12, students engage in academic conversations discussing claims and justifying their reasoning, refining and applying skills. Students build on ideas, propel the conversation, and support claims and counterclaims with evidence.
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| ELA.K12.EE.5.1: | Use the accepted rules governing a specific format to create quality work.Clarifications:
Students will incorporate skills learned into work products to produce quality work. For students to incorporate these skills appropriately, they must receive instruction. A 3rd grade student creating a poster board display must have instruction in how to effectively present information to do quality work. |
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| ELA.K12.EE.6.1: | Use appropriate voice and tone when speaking or writing.Clarifications:
In kindergarten and 1st grade, students learn the difference between formal and informal language. For example, the way we talk to our friends differs from the way we speak to adults. In 2nd grade and beyond, students practice appropriate social and academic language to discuss texts. |
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| ELD.K12.ELL.MA.1: | English language learners communicate information, ideas and concepts necessary for academic success in the content area of Mathematics. |
| ELD.K12.ELL.SC.1: | English language learners communicate information, ideas and concepts necessary for academic success in the content area of Science. |
General Notes
This course should be taught using Florida’s State Academic Standards for Computer Science: Florida’s B.E.S.T. ELA Expectations (EE), Mathematical Thinking and Reasoning Standards (MTRs) and Computational Thinking and Reasoning Standards (CTRs) for students. Florida educators should intentionally embed these standards within the content and their instruction as applicable.
English Language Development ELD Standards Special Notes Section
Teachers are required to provide listening, speaking, reading and writing instruction that allows English language learners (ELL) to communicate information, ideas and concepts for academic success in the content area of Mathematics. For the given level of English language proficiency and with visual, graphic, or interactive support, students will interact with grade-level words, expressions, sentences and discourse to process or produce language necessary for academic success. The ELD standard should specify a relevant content area concept or topic of study chosen by curriculum developers and teachers which maximizes an ELL’s need for communication and social skills. To access an ELL supporting document which delineates performance definitions and descriptors, please click on the following link: https://cpalmsmediaprod.blob.core.windows.net/uploads/docs/standards/eld/si.pdf.
Accommodations
Federal and state legislation requires the provision of accommodations for students with disabilities as identified on the secondary student's Individual Educational Plan (IEP) or 504 plan or postsecondary student's accommodations' plan to meet individual needs and ensure equal access. Accommodations change the way the student is instructed. Students with disabilities may need accommodations in such areas as instructional methods and materials, assignments and assessments, time demands and schedules, learning environment, assistive technology and special communication systems. Documentation of the accommodations requested and provided should be maintained in a confidential file.
In addition to accommodations, some secondary students with disabilities (students with an IEP served in Exceptional Student Education (ESE) will need modifications to meet their needs. Modifications change the outcomes and or what the student is expected to learn, e.g., modifying the curriculum of a secondary career and technical education course.
