Innovation Spotlights：Nine Dimensions for Supporting Powerful STEM Learning with Technology（Ⅳ）

【譯題】 技術促進STEM學習的9個維度與創新案例（四）

Published by the U.S. Department of Education， Office of Educational Technology 美國教育部教育技術辦公室

7.Project-based Interdisciplinary Learning. Students use digital technology tools in the context of authentic project- or challenge-based learning activities that integrate multiple STEM fields （e.g.， science and mathematics）.

Henrietta Lacks Health and Bioscience High School

Henrietta Lacks Health and Bioscience High School in Vancouver， Washington provides students with interdisciplinary project- or challenge-based learning through a project in which students learn about the chemicals in sunscreen and their impact on the environment. The challenge starts by creating a model of a molecule thats commonly found in over-the-counter products including sunscreen. Through their research， students learn that certain compounds such as oxybenzone are harmful for coral reefs and for your skin. In their investigations students use the authentic and freely available PubChem database of chemical information and 3D interactive chemical structure models. For their culminating artifact， students create a project poster as well as a public information piece in the form of a sunscreen brochure. Students present their research to the entire class and describe how the active ingredients found in sunscreen affects coral reef systems and human health.

8.Embedded Assessments. Digital assessments are embedded in STEM instruction to prompt students reflection on the quality of their explanations， models， or problem solutions.

Pine Grove Middle School

At Pine Grove Middle School in Syracuse， New York， students complete embedded assessments during a science lesson about the impact of organisms on the ecosystem. The lesson starts with a check-in question about what would happen if certain species were removed from the food chain. The question sets the context of the lesson， which is driven by students curiosities about food chain impacts. Students add their ideas to a collaborative document where they receive feedback from their peers. Facilitated by the technology， students reflect on and synthesize ideas which often results in the formation of new or revised understandings about the topic. In the second part of the lesson， students focus on what would happen to the food chain if certain species were added. Students submit their answers online where the teacher can also provide real-time feedback to individual students. An important factor for the successful use of digital technology， a teacher notes， is to ask meaningful questions that do not require a yes/no response.

9.Evidence-based Models. Students use technology to develop models based on data and evidence.

Cedars International Next Generation High School

Cedar Internationals Next Generation High School in Austin， Texas， embeds the development of evidence-based models into its project-based learning curriculum. Teachers often engage students with authentic design challenges， such as how to add additional space to the school building， a real and immediate problem facing the school. Students start by researching the spaces in the school， using abstract measuring tools and algebra to measure the dimensions of each of the rooms. Students use the data measurements to create a model for the existing school and then apply their algebraic skills to create another model for a new school design with more usable space. Students create drafts of floor plans and share them with a graphic design team. Together， both teams collaborate by asking questions back and forth about the specifics of the floor plan. When doing this project in the past， students used their hand sketches as models， but those models conveyed limited information. When students started using digital technology to generate models， their products became much more compelling， detailed， and articulate.

Conclusion

Numerous opportunities for STEM learning with technology exist in both formal and informal educational experiences at all levels of our education system. However， as in all fields of study， technology alone is not sufficient to make a difference in STEM. For powerful learning to occur， teachers must be able to make instructional decisions based on evidence that a particular approach will improve outcomes.

A systematic review of the research literature on the impact of technology in STEM learning， summarized in this report， identified nine dimensions practices that result in powerful learning. The nine dimensions， with examples of ways in which they are being used in classrooms across the country， can help teachers make effective decisions about how to support STEM learning with technology now and in the future.

譯文

7.基于項目的跨學科學習。學生在整合多個STEM領域（例如科學和數學）的基于項目或挑戰的真實學習活動中使用數字技術工具。

案例學校：Henrietta Lacks Health and Bioscience High School

Henrietta Lacks Health and Bioscience High School為學生提供跨學科項目或以挑戰為基礎的學習。通過一個項目，學生了解了防曬霜中的化學物質及其對環境的影響。這項挑戰首先要建立一種分子模型，這種分子常見于包括防曬霜在內的非處方藥中。通過研究，學生們了解到某些化合物如氧苯酮對珊瑚礁和皮膚有害。在他們的調查中，學生使用真實和免費的化學信息數據庫PubChem和3D交互式化學結構模型。為了達到最終效果，學生們制作了一個項目海報和一個防曬手冊形式的公共資訊。學生們向全班同學展示他們的研究成果，并描述防曬霜中的活性成分如何影響珊瑚礁系統和人類健康。

8.嵌入的評估。數字評估嵌入到STEM教學中，以促使學生對其解釋、模型或問題解決方案的質量進行反思。

案例學校：Pine Grove Middle School

在Pine Grove Middle School，學生們在一堂關于生物對生態系統影響的科學課上完成嵌入式評估。這一課從一個檢驗問題開始，即如果某些物種從食物鏈中被移除，會發生什么。這個問題設定了課程的背景，學生的好奇心被食物鏈會有什么影響所驅動。學生們將他們的想法添加到一個協作文檔中，在那里他們可以得到同伴的反饋。在技術的幫助下，學生可以反思和整合觀點，從而形成對主題新的或修正的理解。在課程的第二部分中，學生們關注的是，如果加入某些物種，食物鏈會發生什么變化。學生在線提交答案，教師也可以向個別學生提供實時反饋。一名教師指出，成功使用數字技術的一個重要因素是提出有意義的問題，而不是回答是或否。

9.建設以數字證據為基礎的模型。學生使用技術開發基于數據和證據的模型。

案例學校：Cedars International Next Generation High School

Cedars? International Next Generation High School將開發基于證據的模型嵌入到項目學習課程中。教師經常讓學生參與真正的設計挑戰，比如如何為學校建筑增加額外的空間，這是學校面臨的一個真實而緊迫的問題。學生們開始研究學校的空間，使用抽象的測量工具和代數來測量每個房間的尺寸。學生使用數據測量為現有的學校創建一個模型，然后應用他們的代數技能，設計創建另一個有更多可用空間的新學校的模型。學生們起草平面圖，并與平面設計團隊分享。兩個團隊通過反復商討關于平面圖細節的問題來進行協作。在過去做這個項目的時候，學生們用他們的手繪草圖作為模型，但是這些模型傳達的信息是有限的。當學生們開始使用數字技術來生成模型時，他們的產品變得更加引人注目、更加詳細、更加清晰。

結論

在我們教育系統的各個層次正式和非正式學校教育中，都存在著大量利用技術進行STEM學習的機會。但是，與所有研究領域一樣，僅憑技術不足以使STEM與眾不同。為了進行有效的學習，教師必須能夠基于數據證明一種特定的方法可以改善教學效果，從而做出教學決策。

本報告通過對技術在STEM學習中影響的研究文獻進行系統的綜述和總結，選定了可帶來有效學習效果的9個維度的實踐案例。這9個維度，在全國各地的課堂中都有使用方式的示例，可以幫助教師做出有效的決策，以決定在現在和將來如何通過技術來支持STEM學習。