High School - Gateway 3

The instructional materials reviewed for enVisionMath A/G/A meet expectations that the underlying design of the materials distinguish between problems and exercises. The materials distinguish between problems and exercises within each lesson. Most problems or exercises have a purpose. Each lesson starts with Explore & Reason to introduce the new concept for that lesson. Then, there are several examples that guide students through the learning of the content. The lessons end with exercises where students use what they have learned to develop procedural skills, application, and conceptual understanding as appropriate.

The instructional materials reviewed for enVisionMath A/G/A meet the expectations for having a design of assignments that are not haphazard but with problems and exercises given in intentional sequences. Exercises within student assignments are intentionally sequenced to build understanding and knowledge. There is a natural progression within student assignments leading to a full understanding of new mathematics. Within each set of exercises, students are brought back to the essential question for understanding. Students progress in each lesson by starting with problems that focus on understanding, move to practice exercises which are more procedural, and complete application problems.

The instructional materials reviewed for enVisionMath A/G/A meet the expectations that there is variety in how students are asked to present the mathematics. Students compute numerical answers while also providing diagrams and graphs. There are problems in each lesson that ask students a question about the mathematics and require them to explain their thinking. Each lesson includes at least one error-analysis problem where students must find, describe, and correct an error in mathematical work. Examples include:

• In Algebra 1 Lesson 8-3, students graph quadratic functions using vertex form. In problem 40, students are presented with two ordered pairs identifying the path a soccer ball travels. Students determine the quadratic function in vertex form, defend possible solutions that can not be determined, and explain why. Students generate a realistic graph using technology to explore undetermined values as well as find values that generate a realistic graph. Students also explain how key features of the graph correspond to the given situation.
• In Geometry Lesson 3-5, students construct an argument on the possibility of a figure having rotational symmetry and no reflectional symmetry. Students explain and give examples to construct arguments.
• In Algebra 2 Lesson 6-2, problems 2 and 12, students analyze an error and explain or correct it. In problem 4, students explain the different parts of an exponential expression. In problems 7, 8 and 16-21, students compute the amount of money in an account at a certain time. In problem 15, students find two different equations to model a list of data and create a graph of the data and the equations.

The instructional materials reviewed for enVisionMath A/G/A meet the expectations for supporting teachers in planning and providing effective learning experiences by providing quality questions to help guide students’ mathematical development. Questions are consistently provided to teachers to help guide students’ mathematical development. For each topic throughout the series, teachers are provided a math background section, specific to the focus, coherence, rigor, and mathematical practices addressed, and a topic planner. Within the math background section, teachers are given a clear and concise explanation of what students will be covering, what concepts students should already know, and where the concepts lead. Each lesson begins with an Explore question in the student edition, and teachers are provided an assortment of questions to ask their students to encourage discourse and conceptual understanding, as well as providing support for productive struggle and differentiation. For example, in Algebra 1 Lesson 1-5, teachers are given the following: “How could you use words to describe the relationship between Skylar’s personal best and the district state records?” In addition, “How could you represent the solutions visually so they could be easily understood?”

The instructional materials reviewed for enVisionMath A/G/A meet the expectations that the teacher edition contains ample and useful annotations and suggestions on how to present the content in the student edition and in ancillary materials. The materials provide an overview at the beginning of each topic explaining the overarching ideas. This overview is broken up among conceptual understanding, procedural skills, and applications.

Each lesson also includes useful annotations such as a lesson overview that contains student objectives, connections to previous and future content, common errors, vocabulary, and guiding questions with sample student answers. There is also a section with suggestions for advanced students, struggling students, and English Language Learners.

The teacher edition contains an abundance of teaching supports for both planning and in-class instruction. Within the side margins, teachers find highlights on effective teaching practices, essential questions, probing questions, habits of mind questions, additional examples, differentiated instruction supports for English Language Learners, advanced, and struggling students, and various common errors. However, the images for the student book are reduced to 25 percent, rendering them difficult to read and study.

Examples from the teachers edition that show useful annotations and suggestions include:

• In Algebra 1 Lesson 3-3, the student edition gives the definitions of vertical and horizontal translations. The teacher edition suggests two questions to ask students to help them think about and make sense of these definitions.
• In Geometry Lesson 3-2, the teacher edition provides a question to ask students at the beginning of the opening activity and specifies that this question is intended for the whole class. The teacher edition provides two more questions to ask students as they are completing the activity, specifying that the two additional questions should be asked to small groups. There are also two questions that the teacher could use to extend the thinking of early finishers, followed by one more question to summarize the activity for the whole group. The teacher edition also indicates that this activity could be done using an online tool instead of paper and gives a picture of what this tool looks like.

The instructional materials reviewed for enVisionMath A/G/A meet expectations for providing strategies for gathering information about students’ prior knowledge within and across courses. There is a pre-assessment that addresses prior knowledge, and this assessment includes content that is not on course level. These online pre-assessments are editable. Answer keys are provided along with a list of the prior standards associated with each item on the assessment. Each topic in the series includes a Topic Readiness assessment, also found online, that provides the same features as the pre-assessment.

The instructional materials reviewed for enVisionMath A/G/A meet expectations for providing support for teachers to identify and address common student errors and misconceptions. The materials highlight common student errors and/or misconceptions for teachers. The materials also provide strategies for teachers in addressing common student errors and/or misconceptions. In the teacher editions there are red boxes titled “Common Error” that describe common errors and misconceptions. There are at least two different descriptions of common errors in each lesson. Examples include:

• In Algebra 1 Lesson 4-2, students solve systems of equations using the substitution method. In example 2, students compare the graphical representation to the substitution method. The materials note that students may incorrectly simplify when removing parentheses and solving for the variable using the substitution method. Teachers are prompted to remind students to use the distributive property and to guide them through a review of this property and how it applies to this context.
• In Geometry Lesson 4-1, example 3, the teacher edition notes that students may have difficulty identifying why one polygon is not congruent to the other polygon when they are very close to being congruent. The teacher edition suggests that teachers focus students’ attention on two specific sides of the polygons and compare the rates of change between the endpoints of each segment.
• In Algebra 2 Lesson 9-1, the teacher edition notes that students may substitute values into the wrong variable in the equation. The materials give information about creating a visual to help students not make this common error.

The instructional materials reviewed for enVisionMath A/G/A meet expectations for assessments clearly denoting which standards are being emphasized. There are lesson quizzes at the end of each lesson, topic assessments and performance assessments at the end of each topic, four benchmark tests throughout the year, a mid-year assessment, and an end-of-course assessment for each course. Each of these assessments include an answer key and the standards being assessed for each item of the assessment. The benchmark tests, mid-year assessments, and end-of-course assessments are found online, not in the print materials.

The instructional materials reviewed for enVisionMath A/G/A meet expectations for providing teachers with strategies for meeting the needs of a range of learners. Some general statements for the teacher about meeting the needs of all learners are included. There is also a section in the teacher edition with ideas and guiding questions to support struggling students with each lesson. The questions in this section are typically questions that help reinforce concepts students need to be successful in the lesson or questions that help build a student’s conceptual understanding of the lesson. There is also a section in the teacher edition for advanced students, which contains more complex problems for them to complete.

For example, in Geometry Topic 8-4, Teacher Edition page 36B, advanced students deepen their understanding as they explore the right triangle case of the Law of Cosines. Struggling students review how to use the Law of Cosines based on the abbreviations for triangle congruence.

The instructional materials reviewed for enVisionMath A/G/A meet expectations for embedding tasks with multiple entry points that can be solved using a variety of solution strategies or representations. The materials provide teachers with guidance on helping students solve problems with multiple entry points. Some of the Mathematical Modeling in 3 Acts and STEM projects give students multiple entry points to a problem as well as allow students to try a variety of methods to solve the problem. Examples include:

• In Algebra 1 Topic 3, Mathematical Modeling in 3 Acts, students determine whether it would be faster to check out in a regular line or an express line at a grocery store. Students are given information about a hypothetical situation involving a certain number of customers in each line as well as how many items each customer has. There are various ways students could approach this problem.
• In Geometry Topic 3, STEM project, students draw a figure of any shape in a coordinate grid and write a script about this figure, including several transformations. Students can choose how simple or complex their figure will be and how simple or complex their script will be.

The teacher edition embeds Mathematical Modeling in 3 Acts into the pacing guide, but it does not include the STEM projects into this guide. There are no suggestions of where to use the STEM projects or how much time to allow for them.

The instructional materials reviewed for enVisionMath A/G/A meet expectations for providing support, accommodations, and modifications for English Language Learners and other special populations that will support their regular and active participation in the learning of mathematics. Within each topic in the teacher edition, the series provides guidance for beginning, intermediate, and advanced ELL students. Students are also given access to read and listen for English and Spanish definitions. Each lesson provides a Concept Summary which includes definitions of the introduced vocabulary. Students are provided multiple representations of the concepts addressed within the lesson.

There are strategies for special populations to practice vocabulary as seen in Algebra 2 Lesson 4-2, Teacher Edition page 209B, Mathematical Literacy and Vocabulary, which help ELL and other special populations to develop and reinforce understanding of key terms and concepts. Each practice section begins with “Do you understand,” from which teachers can modify pacing for special populations as needed.

The instructional materials reviewed for enVisionMath A/G/A meet expectations for providing support for advanced students to investigate mathematics content at a greater depth. The materials provide multiple opportunities for advanced learners to investigate the course-level mathematics at a greater depth. There are no instances of advanced students doing more problems than their classmates. Each topic begins with a Topic Readiness Assessment which, based on students’ performance, assigns a study plan tailored to student’s specific needs, including advanced students. Each lesson provides teachers with additional problems for advanced students. Examples of enrichment for advanced learners include:

• In Geometry Lesson 7-1, Teacher Edition page 305, an extension is provided of a problem on dilations.
• In Algebra 2 Lesson 3-2, Teacher Edition page 141, an extension is provided for advanced students to extend their work with polynomial functions.

Teachers are also provided an assignment guide for advanced students for each lesson.