Launch phase
The Launch phase is designed to increase the science capital in a classroom by asking questions that elicit and explore students’ experiences. It uses local and global contexts and real-world phenomena that inspires students to recognise and explore the science behind objects, events and phenomena that occur in the material world. It encourages students to ask questions, investigate concepts, and engage with the Core Concepts that anchor each unit.
The Launch phase is divided into four routines that ensure students experience the science for themselves and empathise with people who experience the problems science seeks to solve (Experience and empathise), anchor the teaching sequence with the key ideas and core science concepts (Anchor), elicit students prior understanding (Elicit), and connect with the students’ lives, languages and interests (Connect).
Experience and empathise routine
Students arrive in the classroom with a variety of scientific experiences. This routine provides an opportunity to plan for a common shared experience for all students. The Experience may involve games, role-play, local excursions or yarning with people in the local community. This routine can involve a chance to Empathise with the people who experience the problems science seeks to solve.
When designing a teaching sequence, consider what experiences will be relevant to your students. Is there a location for an excursion, or people to talk to as part of an incursion? Are there local people in the community who might be able to talk about what they are doing? How could you set up your classroom to broaden the student’s thinking about the core science ideas? How could you provide a common experience that will provide a talking point throughout the sequence?
Anchor routine
Science education consists of a series key ideas and core concepts that can explain objects, events and phenomena and link them to the experiences encountered by students in their lives. The purpose of the Anchor routine is to identify the key ideas and concepts in a way that builds and deepens their understanding. During the Launch phase, the Anchor routine provides a lens through which to view the classroom context, and a way to frame the key knowledge and skills students will be learning.
When designing a teaching sequence, consider the core concepts and key ideas that are relevant. Break these into small bit sized pieces that are relevant to the age and stage of your students. Consider possible alternative concepts that students might hold. How could you provide activities or ask questions that will allow students to consider what they know? How will these concepts provide guidance for the Act phase?
Elicit routine
The Elicit routine provides opportunities to identify students’ prior experiences, existing science capital and potential alternative conceptions related to the Core concepts. The diagnostic assessment allows teachers to support their students to build connections between what they already know and the teaching and learning that occurs during the Inquire cycle.
When designing a teaching sequence, consider when and where students may have been exposed to the core concepts and key ideas in the past. Imagine how a situation would have looked without any prior knowledge. What ideas and thoughts might students have used to explain the situation or phenomenon? What alternative conceptions might your students hold? How will you identify these?
The Deep connected learning in the ‘Pedagogical Toolbox: Deep connected learning’ provides a set of tools to identify common alternative conceptions to aid teachers during this routine.
Connect routine
Each student comes to the classroom with experiences made up from science related knowledge, attitudes, experiences and resources in their life. The Connect routine is designed to tap into these experiences, and that of their wider community. It is also an opportunity to yarn with community leaders (where appropriate) to gain an understanding of the student’s lives, languages and interests. In the Launch phase, this routine identifies and uses the science capital of students as the foundation of the teaching sequence so students can appreciate the relevance of their learning, and its potential impact on future decisions. In short, it moves beyond scientific literacy and increases the science capital in the classroom and science identity of the students.
When planning a teaching sequence, take an interest in the lives of your students. What are their hobbies, how do they travel to and from school? What might have happened in the lives of your students (ie blackouts) that might be relevant to your next teaching sequence? What context might be of interest to your students?
Inquire phase
The Inquire phase allows students to cycle progressively and with increasing complexity through the key science ideas related to the core concepts. Each inquire cycle is divided into three Teaching and Learning Routines that allow students to systematically build their knowledge and skills in science and incorporate them into their current understanding of the world.
When designing a teaching sequence, it is important to consider the knowledge and skills that students will need in the final Act phase. Consider what the students already know and identify the steps that need to be taken to reach the level required. How could you facilitate students understanding at each step? What investigations could be designed to build the skills at each step?
Question routine
Identifying and constructing questions is the creative driver of the inquiry process. It allows students to explore what they know and how they know it. During the Inquire phase of the LIA Framework, the question routine allows for past activities to be reviewed and to set the scene for the investigation that students will undertake. The use of effective questioning techniques can influence students’ view and interpretation of upcoming content, open them to exploration and link to their current interests and science capital.
When designing a teaching sequence, it is important to spend some time considering the mindset of students at the start of each Inquire phase. What do you want students to be thinking about, what do they already know and what is the best way for them to approach the task? What might tap into their curiosity?
Investigate routine
The Investigate routine provides students with an opportunity to explore the key ideas of science, to plan and conduct an investigation, to gather and record data. The investigations are designed to systematically develop content knowledge and skills through increasingly complex processes of structured inquiry, guided inquiry and open inquiry approaches. Students are encouraged to process data to identify trends and patterns and link them to the real-world context of the teaching sequence.
When designing a teaching sequence, consider the diagnostic assessment (Launch phase) that identified the alternative conceptions that students held. Are there activities that challenge these ideas and provide openings for discussion? What content knowledge and skills do students need to be able to complete the final (Act phase) task? How could you systematically build these through the investigation routines. Are there opportunities to build students’ understanding and skills in the science inquiry processes through the successive investigations.
Integrate routine
Following an investigation, the Integrate routine provides time and space for data to be evaluated and insights to be synthesized. It reveals new insights, consolidates and refines representations, generalises context and broadens students’ perspectives. It allows student thinking to become visible and opens formative feedback opportunities. It may also lead to further questions being asked, allowing the Inquire phase to start again.
When designing a teaching sequence, consider the diagnostic assessment that was undertaken during the Launch phase. Consider if alternative conceptions could be used as a jumping off point to discussions? How could students represent their learning in a way that would support formative feedback opportunities? Could small summative assessment occur at different stages in the teaching sequence?
Act phase
The Act phase empowers students to use the Core concepts and key ideas of science they have learned during the Inquire phase. It encourages students to develop a sense of responsibility as members of society – to act rather than be acted upon. It provides students with the opportunity to positively influence their own life and that of the world around them. For this to occur, students need to build foundational skills in an interactive mutually supportive environment with their community.
When designing the Act phase, consider ways that students could use their scientific knowledge and skills? Consider their interests and lifestyles that may intersect with the core concepts and key ideas. What context or problem would provide students with a way to use science to synthesise a design? How (and to whom) will students communicate their understanding?
Connect routine
Each student comes to the classroom with experiences made up from science related knowledge, attitudes, experiences and resources in their life. The Connect routine is designed to tap into these experiences, and that of their wider community. It is also an opportunity to yarn with community leaders (where appropriate) to gain an understanding of the student’s lives, languages and interests. In the Act phase, this routine reconnects with the science capital of students so students can appreciate the relevance of their learning, and the agency to make decisions and take action.
When designing a teaching sequence, consider the everyday occurrences, phenomena and experiences that might relate to the science that they have learned. How could students show agency in these areas?
Anchor routine
Science education consists of a series key ideas and core concepts that can explain objects, events and phenomena and link them to the experiences encountered by students in their lives. The purpose of the Anchor routine is to identify and link students’ learning to these ideas and concepts in a way that builds and deepens their understanding.
When designing the Act phase of a teaching sequence, consider the core concepts and key ideas that are relevant. The Anchor routine provides an opportunity to collate and revise the key knowledge and skills students have learned in a way that emphasises the importance of science as a human endeavour.
Design routine
When students use their knowledge and skills in new ways, they also have an opportunity to develop and use their creative and critical thinking skills. With scaffolded support, they can become more confident to work in a team and develop a stronger sense of autonomy. This results in stronger student outcomes, attitudes and sense of empowerment.
When designing a teaching sequence, consider what activity would allow students to showcase their knowledge and skills. Consider the current abilities of your students, what are they capable of explaining. What props could they design or build that would support their explanations? How much information would they need in their design brief to support their thinking? How does this connect with their lives and interests?
Communicate routine
A key part of Science Inquiry, the Communicate routine provides students with an opportunity to communicate their ideas effectively to others. It allows students a chance to show their learning to members of their community and provides a sense of belonging. It also encourages students to have a sense of responsibility to share their understanding of science and to use this to provide a positive influence in the community.
When designing a teaching sequence, consider who might be connected to the students that have an interest in science? Who in their lives could share their learning? What forum could be used to build an enthusiasm for science. Are there members of the community (parents, teachers, peers or wider community) who would provide a link to future science career?