![]() ![]() Then, have your child draw a picture of the baby animal that goes with each word. Parents: write each one of the baby animal words on its own piece of paper. Click the image to get the printable word search PDF. ![]() Find the words they learned about in the video. Address “language ideologies” that explicitly or implicitly signal that some languages are more valuable than others, especially when engaging in science and engineering.Complete this word search.Group students that share similar linguistic resources, or at least allow for home language communication to happen. Engage students in making sense of phenomena using home and heritage languages as well as English.Embed these words into several forms of communication. Rather than starting with a list of scientific vocabulary to be learned, create a “word catcher” with your students, with all the terms they have used when thinking and talking about the phenomena over the course of an investigation.This can help them identify with science and broaden participation. They are also able to develop their fluency in the multiple languages they speak when they leverage them for meaningful activities, like learning science. Multilingual students are not just developing scientific fluency.It is their right to express themselves using all of their language resources. Multilingual students’ learning and participation increase when they have access to a broader repertoire of ways to make sense of and talk about the natural phenomena they investigate and observe.Educators should help their students be explicit about what they understand (and what they do not) by describing their understanding in their own words without making students worry about repercussions. Sometimes, learners can hide their lack of conceptual understanding behind technical vocabulary.In these settings, educators should provide students with meaningful access to academic language and support them as they develop this fluency, and support their Critical Language Awareness. School accountability systems and policies often expect students to learn and use academic language.Limiting which communication resources are allowed in the classroom (e.g., languages, registers) can limit students’ participation and learning, especially those from non-dominant communities. They are more inclusive, rich, and productive. Learning environments that invite a wider range of ways of talking create more opportunities for students to reason and communicate. Educators should build on these resources.Most learners can draw upon multiple ways of communicating (e.g., different languages, registers, gestures) as they navigate different learning situations. All learners come to classrooms with resources for communicating that are productive for learning and participating.Such an approach can lead a student to dis-identify from the scientific enterprise in an unnecessary way. ![]() However, science learning environments that emphasize academic language and school-based, English-only ways of speaking can disenfranchise emergent multilingual students and/or students from non-dominant communities by not incorporating their ways of talking and sensemaking.This requires that scientists and engineers develop their own ways of communicating precisely within their communities, often relying on technical registers (i.e., a variety of language with specific vocabulary). Science is a broad endeavor that relies on complex strategies for communicating and describing how and why phenomena happen.What additions or modifications could you make to your materials to make them more linguistically equitable (e.g., to rubrics)? Instructional materials are not always designed to support students to use multiple languages or forms of communicating.What strategies could you use to encourage all students, including emerging multilingual students, to express themselves in multiple ways?. ![]()
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