Kindergarten - Gateway 3

The materials reviewed for Kindergarten include opportunities for teachers to effectively plan and utilize materials with integrity and to further develop their own understanding of the content. Each module includes an accompanying Family Letter that is found in each module’s companion website. The letter provides the module title and information about the final module challenge, asks the family for feedback on the student experiences relevant to the module, and provides sample prompts family members can use to foster conversations at home about the module to provide student sensemaking. The digital materials for Kindergarten also include a Family Letter translated into Spanish.

Example of a Family Letter used to communicate to stakeholders:

• In Kindergarten, Engineering Design, How Can We Stay Cool In The Sun?, parents are asked to list books students might know about engineers and to share a story about a hat that someone in the family wears in the sun. Questions are provided for parents to ask students during the module: “I hear you saw a video about a playground that was too hot to play on. Why did the playground get hot? How did you figure that out? Are you designing a solution for the hot playground problem? Tell me about your design. Why did you design it like that?”

The materials reviewed for Kindergarten are feasible and flexible for one school year but do not provide guidance for adjusting instruction and/or pacing based on local contexts.

There are four modules in the Kindergarten materials and each module consists of 10 lessons. Most lessons are estimated to take 30 minutes, but some lessons span two days. The materials list how many class periods comprise each lesson in the lesson planner, but do not include a comprehensive pacing guide that provides the total number of class periods and expected duration of each module at a glance. However, based on the lesson planner, Kindergarten’s 56 anticipated class periods are feasible for a single year.

The materials do not contain any other pacing guidance or suggestions on how to modify instruction and/or pacing when there is not sufficient time to implement the full program.

The materials reviewed for Kindergarten do not include assessments that offer accommodations that allow students to demonstrate their knowledge and skills without changing the content of the assessment. However, the program uses the universal design approach where assessments are offered in multiple modalities (e.g. drawings with verbal responses), use a large font, and provide picture-based or simple text. In addition, Spanish materials are available both in print and digitally. The materials miss the opportunity to provide specific examples for access or accommodation for the assessments for disabled students or multilingual learners beyond Spanish speakers.

The materials reviewed for Kindergarten include varied approaches to learning tasks over time and variety in how students are expected to demonstrate their learning with opportunities for students to monitor their learning. 

The materials provide multiple multi-modal approaches to presenting and engaging with the material throughout the grade. Students engage with content by reading, listening to reading, watching videos, and making first-hand observations. Students participate and respond through writing, discussion, oral presentation, drawing, and building models. The materials also utilize a variety of participation structures and students engage in whole-group instruction and discussions, small-group work, and partner work. For instance:

• In Kindergarten, Life Science, What Do Plants And Animals Need To Live?, Lesson 6: World of Webs, students observe a projection of a caterpillar web in a cup and discuss with a partner what they see. They share with the class what they heard their shoulder partner say and discuss what is happening in the photo. After viewing a live-view caterpillar cup, students draw the parts of the caterpillar’s habitat they can observe and label each part. Teachers facilitate a class discussion with guiding questions about what they have observed. 

• In Kindergarten, Earth and Space Science, How Can We Be Ready For The Weather?, Lesson 3: Making Sense with Models, students come together and share what they found out during their water investigation using a model of rain and wind. Students use what they have learned to draw where they should stand in relation to a building if they want to stay dry.

The materials also provide students with multiple opportunities to share, revise, and reflect on their thinking. Instruction typically begins with a phenomenon or problem, and students share or record their initial thinking on the phenomenon. They often return to the phenomenon or problem multiple times and adjust their thinking based on new activities or instruction. For instance:

• In Kindergarten, Engineering Design, How Can We Stay Cool In The Sun?, Lesson 2: Warmer or Colder, students ask questions about the problem of it being too hot on the playground. After an investigation, students think back to the questions and take a class poll to decide how to determine how hot the playground is. In Lesson 3, after investigating how hot the playground is, students return to “Our Questions about the Problem Chart” and review the list to decide what to investigate next.

The materials reviewed for Kindergarten include opportunities for teachers to use a variety of grouping strategies. 

Throughout the modules, lessons include teacher directions to have students work independently, in pairs, in small groups, or to conduct lessons as a whole class. Students frequently work with a  partner for reading, turn-and-talks, brainstorming, conducting investigations, and designing solutions to problems. Examples include: 

• In Kindergarten, Life Science, What Do Plants And Animals Need To Live?, Lesson 8: Sidewalk Solutions, from a whole-class setting, students turn and talk to their shoulder partner about their observations from a picture. Then, the lesson resumes as a whole-class discussion.

• In Kindergarten, Physical Science, How Can We Change An Object’s Motion?, Lesson 8: Design My Hockey Game, students work with a partner to develop and test the walls for their new hockey game. Then, pairs of students join another pair to create a group of four students to tell each other about their games. They are given sentence frames to guide the discussion. 

Rationale for increased pair collaboration in Kindergarten is provided in the front matter of each teacher guide in the Curriculum Overview, Group Work section, citing that pair collaboration increases engagement as well as vocabulary use and development. Teacher guides provide clear instructions for what type of grouping to use for each activity within the activity’s instructions. However, there is a missed opportunity to provide guidance for teachers about needs-based pairing or grouping, or to offer adaptations for different student needs. Examples include: 

• In Kindergarten, the Curriculum Overview, Group Work, provides rationale for teachers about the importance of student group work. The rationale explains that scientists regularly work with others so engaging in structured collaboration is important for students. It explains that in lower elementary, students are often paired to provide increased opportunities for growth in communication skills and vocabulary use. 

Teacher guidance is given to indicate when and how students should be grouped. This guidance comes throughout the lesson as applicable. Examples include: 

• In Kindergarten, Life Science, What Do Plants And Animals Need To Live?, Lesson 2: Making a Plant Plan, teacher guidance states, “Organize the class into groups of three.”

The materials reviewed for Kindergarten include a balance of images or information about people, representing various demographic and physical characteristics. The texts in the accompanying Smithsonian Science Stories include depictions from a range of ethnicities, genders, and demographics and content and stories connected to a range of cultures. This includes a range of people being positively depicted as scientists and engineers. There are also representations of a variety of family structures, including images of single-parent, two-parent, multi-generational, and multi-ethnic families. Examples include:

• In Kindergarten, Earth and Space Science, How Can We Be Ready For The Weather?, Lesson 5: What are you Wearing?, the three readings from What’s the Weather? include images that depict groups of students of multiple ethnicities, genders, and ages. 

• In Kindergarten, Physical Science, How Can We Change An Object’s Motion?, Lesson 4: Paddle Tests, the teacher reads aloud “Court Surface Test” from Tennis Tests. The story describes how a sports engineer designs tennis courts and prepares for any type of player and includes an image of a male-presenting player in a wheelchair hitting a tennis ball. 

The materials provide limited guidance to encourage teachers to draw upon student home language to facilitate learning. With at least one instance found in each lesson across the units, various strategies are suggested including: discussions in both home language and English, pairing bilingual students with English language learners, and grouping students with a common home language. Examples include:

• In Kindergarten, Physical Science, How Can We Change An Object’s Motion?, Lesson 7: Wall Tests, the EL Strategy located in the callout box states, “Suggest students discuss content in both their native language and in English. This can help them become more familiar with the potential similarities between English and their native language.” 

Additionally, for Spanish speakers, the digital materials include text and a text-to-speech reader in English and Spanish, Spanish versions of student-facing materials, and family letters for each unit. Vocabulary cards with images are also included to support English language learners. Translations are not available in other languages.

The materials reviewed for Kindergarten include limited guidance to encourage teachers to draw upon student cultural and social backgrounds to facilitate learning. The materials primarily support teachers to draw upon students’ backgrounds and funds of knowledge through the Family Letters and when introducing phenomena and problems. The EL Strategy callout boxes also occasionally contain questions related to students’ cultural backgrounds. The materials do not provide overall guidance on drawing upon student cultural and social backgrounds.

Each module includes a Family Letter that is sent home at the beginning of the unit. The Family Letter is sent home and returned to gather background experiences with the science content and phenomenon and/or problem and provides students the opportunity to share their personal and cultural experiences. For example:

• In Kindergarten, Life Science, What Do Plants And Animals Need To Live?, the Family Letter asks parents: “Is your child familiar with plants and the things they need to live and grow? Does your family care for plants and/or pets at home? Has your child had direct experience in nature and with insects?”

The materials also typically ask for students’ experience when introducing phenomena and problems. Sometimes the teacher prompts students for their experience and at other times this is embedded in the Ada Asks video that introduces the phenomenon and/or problem. For example:

• In Kindergarten, Engineering Design, How Can We Stay Cool In The Sun?, Lesson 1: What’s the Problem?, the teacher asks students if they have ever heard the words “engineer” or “engineering.” Students share experiences of where or when they may have heard those words. Responses from the Family Letters may also be included in the discussion. 

The EL Strategy callout boxes also occasionally include guidance for teachers to draw upon students’ cultural backgrounds. While the materials target these prompts to multilingual learners, the guidance is applicable to students of all backgrounds. For example:

• In Kindergarten, Earth and Space Science, How Can We Be Ready For The Weather?, Lesson 2: What Is Weather?, the teacher invites students to, “tell a shoulder partner about an experience they had with weather” to activate prior knowledge and experience. This helps students activate memories and make sense of new information by seeing how it fits with what they already know.

The materials reviewed for Kindergarten include supports for different reading levels to ensure accessibility for students. Reading is primarily included through Smithsonian Science Stories. Lexile levels are provided for each reading in the Table of Contents. The Curriculum Overview in the front matter of each unit describes that each reader is, “carefully calibrated to grade-level appropriate Lexile measurements according to Common Core text complexity guidelines.” The digital versions of the texts have a text-to-speech function. However, this function is automated, headings and captions are read out of order, and the reading sometimes lacks fluency. The texts for Kindergarten are not offered at different Lexile levels, but the texts are primarily used as read-alouds by the teacher.

As an additional support, vocabulary card sets are available for all units. They are explained in the Teacher’s Guide in the Curriculum Overview to be used in supporting vocabulary acquisition for multilingual learners and struggling readers. These cards can also be used to create a word wall in the classroom for student access.

The materials also embed strategies to support comprehension into the lessons themselves. Reading is supported throughout each module by scaffolding expectations for students using read-alouds, comprehension prompts, jigsaw activities, annotation, discussion, and other strategies. Examples include:

• In Kindergarten, Earth and Space Science, How Can We Be Ready For The Weather?, Lesson 8, Activity Steps 2-4, the teacher reads a letter from Ada to the class. Then, the teacher re-reads the letter from the beginning. Students think about what Ada is asking in the letter and they turn and talk to a shoulder partner about what they remember. 

In Kindergarten, Physical Science, How Can We Change an Object’s Motion?, Lesson 4: Paddle Tests, the teacher reads a story called Tennis Tests about the best tennis racket. Students predict what makes the best racket during the reading and answer comprehension questions after the reading to recognize key ideas and details. Students then watch a video that shows the tennis racket testing machine that was described in the story.

The materials reviewed for Kindergarten integrate limited interactive tools that support student engagement in the three dimensions when applicable. In a small number of lessons, students use digital simulations, interactive maps, or digital games to support sensemaking. Some of the interactive tools are used in the optional Extension activities. When digital tools are used, guidance for teachers is centered around the facilitation of the tools for students to use in context with the lesson. There are no options to customize simulations for local use. Examples include:

• In Kindergarten, Earth and Space Science, How Can We Be Ready For The Weather?, Lesson 9: Planning a Visit, students use a simulation that shows the hazards associated with different types of storms and provides options for how someone could prepare for each storm. Students use the Storm Sort simulation to identify the types of storms that might be likely where Ada lives. 

• In Kindergarten, Physical Science, How Can We Change An Object’s Motion?, Lesson 10: Mini Golf Mystery Part 2, there is an extension activity where student pairs use a computer game and place walls inside mini-golf features to cause a ball pushed into one part of the feature to come out of the feature and go into a hole. The first hole is similar to the science challenge completed during the module lessons.

The materials reviewed for Kindergarten do not include or reference digital technology that provides opportunities for teachers and/or students to collaborate with each other, when applicable. The materials are consistently designed for in-person student collaboration.

The materials reviewed for Kindergarten include visual design that supports students in engaging thoughtfully with the subject and is neither distracting nor chaotic. The printed student materials across the series are visually appealing and support thoughtful engagement in the subject. There are no distracting images or unnecessary designs. Color-coding is deliberate and helpful as are icons and call-out boxes that remain consistent across all modules. 

Student materials are consistent in layout with minimal worksheets for each unit. They are clear with a title followed by instructions in a legible font. There is ample space for student work with boxes or other scaffolds drawn for student use. Where writing is necessary, wide spaced lines are provided. Graphics and icons are bold and easily recognizable. However, the difference between Activity Sheets and Notebook Sheets is not clearly marked for student use.

Student digital resources are offered on a separate website that houses links for the lesson videos and PDFs of images. Videos are hosted through YouTube and are easy to navigate. Simulation links are also hosted on a separate website and are easy to find with directions that are clear and visually appealing. The student digital resources are not linked on the teacher digital resources page and instead are found in a separate URL printed within the Teacher’s Guide. 

The printed teacher guides are arranged uniformly across each module. Each guide includes: Curriculum Overview, Module Overview, Lesson Planner, Guide to Module Investigations, individual lesson plans, and blackline masters. Teacher guides consistently use clear, purposeful color coding and iconography.

Digital materials for Kindergarten are generally easy to navigate and visually similar to print materials with the same symbols and color coding. However, navigating through the digital resources may pose challenges because of inconsistent or unclear labeling and filtering.

The materials reviewed for Kindergarten provide teacher guidance for the use of embedded technology to support and enhance student learning, when applicable. Every lesson contains a Preparation Section that tells teachers which digital resources should be used and how to prepare them for each lesson. There is also teacher guidance around using the simulations or videos and how to facilitate the related activities. It offers suggestions for how to assist students with the outcomes (making observations, asking questions, collecting data, discussions, etc). It also includes suggestions for how students should view the technology (as a class, in pairs, repeated viewings, when to stop the video, etc). Examples include:

• In Kindergarten, Life Science, What Do Plants And Animals Need To Live?, Lesson 4: What’s on the Menu?, the teacher plays the Ada Asks Caterpillar video. The video is interrupted as soon as Ada begins to explain how to take care of the caterpillars. Teachers are directed to replay it multiple times until students realize the information they need is missing. This engages the students in figuring out what caterpillars need to live and grow in order to construct an argument using evidence to support a claim about what caterpillars need to live.