Designing and Implementing Mathematics Instruction for Students with Diverse Learning Needs

Designing and Implementing Mathematics Instruction for Students with Diverse Learning Needs

$129.99

In stock
0 out of 5

$129.99

SKU: 9780205442065 Categories: ,
Title Range Discount
Trade Discount 5 + 25%

Description

This exciting new book integrates the explicit teaching practices that have proven effective for students with disabilities with the NCTM math standards that dominate current mathematics practices in the United States. 

Highlights Include:

Curriculum-based assessment chapter helps teachers group students for instruction, place students in the curriculum, monitor performance, and make data-based decisions. (Chapter 2)

Content coverage of all five NCTM content standards provides teachers the support needed to access the general education curriculum and help their students meet annual yearly progress expectations (Chapters 7-15).

•Detailed scope and sequence charts provide a valuable resource for assessing, planning, and designing instruction (Chapters 7-15).

•Instructional design discussion includes four domains: concepts, declarative knowledge, problem solving, and procedural knowledge. When teachers understand the function of the instruction, their effectiveness and efficiency are enhanced (Chapters 3-15).

Integration of explicit teaching practices with NCTM the approach helps teachers maintain practices that work for students with diverse needs while integrating reformed-based mathematics practices (Chapters 1, 7-15).

Detailed guidelines, including scripted lessons, on how to design and deliver effective instruction.  These sample lessons illustrate how to apply the explicit teaching sequence to various content areas and provide examples for pre-service and in-service teachers to use when developing their own lessons.

[MyLabSchool horizontal banner ad]

  • Curriculum-based assessment chapter (Ch. 2) helps teachers group students for instruction, place in curriculum, monitor performance, and make data based decisions.
  • Content coverage of all five NCTM content standards provides teachers the support needed to access the general education curriculum and help their students meet annual yearly progress expectations (Chapters 7 — 15).
  • Detailed scope and sequence charts provide a valuable resource for assessing, planning,and designing instruction (Chapters 7-15).
  • Instructional design discussion includes four domains: concepts, declarative knowledge, problem solving, and procedural knowledge.   When teachers understand the function of the instruction, their effectiveness and efficiency are enhanced  (Chapters 3-15).
  • Integration of explicit teaching practices with NCTM approach  helps teachers maintain practices that work for students with diverse needs while integrating reformed-based mathematics practices (in Chapters 1, 7-15).
  • Detailed guidelines, including scripted lessons, on HOW to design and deliver effective instruction.  These sample lessons illustrate how to apply the explicit teaching sequence to various content areas and provide examples for preservice and inservice teachers to use when developing their own lessons.

This exciting new book integrates the explicit teaching practices that have proven effective for students with disabilities with the NCTM math standards that dominant current mathematics practices in the United States

In Part 1 of the book, teachers learn the fundamentals of mathematics assessment and instructional design for conceptual, declarative knowledge, procedural, and problem-solving lessons.  In Part 2, the detailed scope and sequence charts, along with instructional guidelines keyed to the objectives, provide teachers with specific guidelines for assessment and design.

I.

1. An Overview of Mathematics Curriculum and Instruction.

A. Introduction.

B. Curriculum Factors.

1. Following a Hierarchy and Sequence of Skills.

2. Prioritizing Essential Skills.

3. Creating a Meaningful Context.

C. Instructional Domains.

1. Conceptual Understanding.

2. Declarative Knowledge.

3. Procedural Knowledge.

4. Application.

D. Explicit Teaching Cycle & Principles.

1. Curriculum-Based Assessment.

2. Planning.

3. Advance Organizer.

a. Review.

(1) Planning the review.

(2) Conducting the review.

b. State lesson objective and link.

c. Develop relevance.

4. Demonstration (“I do”).

a. Model thinking and action.

b. Maximize student engagement.

c. Monitor student understanding.

5. Guided Practice (“We do”).

a. Vary levels of support.

b. Monitoring student performance.

6. Independent Practice (“You Do”).

a. Planning the practice format.

b. Providing distributive practice.

c. Monitoring student performance.

7. Maintenance.

8. Monitoring Student Acquisition of New Material.

9. Teaching Culturally and Linguistically Diverse Learners.

2. Curriculum-Based Assessment and Planning.

A. Introduction.

B. Curriculum-based Assessment.

1. Types of Curriculum-based Assessments.

2. Student Performance Measures and Recording Systems.

a. Percentage.

b. Rate.

c. Error analysis.

3. Data-based Decision Making.

a. Survey CBA.

b. Untimed focused CBA.

c. Probes.

4. Steps for Developing and Administering CBA.

5. Survey CBA Case #1.

6. Untimed Focused CBA Case #2.

7. Developing and Administering a Probe Case #3.

.

C. Planning Instruction.

1. Identify Math Curriculum and Write Goals and Objectives.

2. Form Instructional Groups.

3. Develop Lesson Plans.

a. Target one concept, skill, or set of facts for instruction.

b. Design the lesson.

c. Instructional alignment.

4. Adapting the General Education Textbook Lessons.

3. Developing Conceptual Understanding.

A. Introduction.

B. Characteristics of Instruction Designed to Promote Conceptual Understanding.

C. Rationale for Promoting Conceptual Understanding.

D. Planning Guidelines.

1. Make Appropriate Decisions Related to Manipulative Devices.

2. Select Pictures and Visual Displays.

3. Plan for Integration of Written Symbols.

4. Plan for Real-World Application.

E. Implementation Guidelines.

1. Use Concrete-Representational-Abstract Approach.

2. Use Explicit Lesson Sequence.

4. Teaching Procedural Strategies.

A. Introduction.

B. Rationale for Teaching Procedural Strategies.

C. Characteristics of a Procedural Strategy.

D. Guidelines for Planning Instruction that Teaches a Procedural Strategy.

1. Identify the prerequisites.

2. Write a procedural strategy.

3. Select a complete set of problem examples.

(a) Aligning all problem examples.

(b) Providing a full range of examples.

(c) Including discrimination problems.

4. Guidelines for Implementing Procedural Strategy Instruction.

(a) Provide an advance organizer.

(b) Provide demonstration (“I do”).

(1) Model thinking and action.

(2) Maximize student engagement.

(3) Monitoring student understanding.

(c) Provide guided practice (“We do”).

(1) Vary levels of support.

(2) Monitoring student understanding.

(d) Provide independent practice (“”You do”).

(1) Monitoring student performance.

(2) Collecting data.

5. Developing Declarative Knowledge.

A. Introduction.

B. Characteristics of Instruction Designed to Develop Declarative Knowledge.

C. Rationale for Developing Declarative Knowledge.

1. The Importance of Declarative Knowledge with Basic Math Facts.

2. The Importance of Declarative Knowledge with Number Sense.

3. The Importance of Declarative Knowledge with Functional Skills.

D. Instructional Practices to Develop Declarative Knowledge.

1. Constant Time Delay.

2. Prompt Fading Procedure.

3. 1-Minute Timings.

(a) Establish rate goals using tool skills already in students’ declarative knowledge network.

(b) Establish goals using the adult/student proportional formula.

(c) Establish goals using local norms.

(d) Establish goals using guidelines reported in the literature.

(e) Gather and/or develop needed materials.

(f) Administer timings in a positive, structured manner.

(g) Provide feedback.

4. Instructional Games.

5. Three-Step Labeling Procedure.

6. Verbal Rehearsal.

(a) Group rehearsal.

(b) Peer-assisted and individual rehearsal.

(c) Rapid-fire verbal rehearsal.

7. Computer-Based Instruction.

6. Enhancing Problem Solving Abilities.

A. Rationale for Enhancing Problem Solving Abilities.

1. Mathematical Problem Solving in the Workplace.

2. Mathematical Problem Solving in Daily Living.

3. Mathematical Problem Solving in Leisure Activities.

4. Problem Solving Performance of Students with Disabilities.

B. Guidelines for Planning Problem Solving Instruction.

1. Develop Appropriate Word Problems.

2. Integrate Authentic Problem Solving Experiences.

C. Guidelines for Implementing Problem Solving Instruction.

1. Word Problem Instruction.

2. Anchored Instruction.

3. Functional Application of Life Skills.

II.

7. Number Readiness.

A. Scope and Sequence Chart.

B. Counting.

C. Reading and Writing Numbers.

D. Relationships Among Whole Numbers.

E. Place Value.

F. Estimation.

8. Addition and Subtraction of Whole Numbers.

A. Scope and Sequence Chart.

B. Basic Facts.

C. Advanced Operations.

9. Multiplication and Division of Whole Numbers.

A. Scope and Sequence Chart.

B. Basic Facts.

C. Advanced Operations.

10. Rationale Numbers.

A. Scope and Sequence Chart.

This exciting new book integrates the explicit teaching practices that have proven effective for students with disabilities with the NCTM math standards that dominant current mathematics practices in the United States .

In Part 1 of the book, teachers learn the fundamentals of mathematics assessment and instructional design for conceptual, declarative knowledge, procedural, and problem-solving lessons. In Part 2, the detailed scope and sequence charts, along with instructional guidelines keyed to the objectives, provide teachers with specific guidelines for assessment and design.

The curriculum-based assessment chapter (Ch. 2) helps teachers group students for instruction, place in curriculum, monitor performance, and make data based decisions. Content coverage of all five NCTM content standards provides teachers the support needed to access the general education curriculum and help their students meet annual yearly progress expectations (Chapters 7 — 15). Detailed scope and sequence charts provide a valuable resource for assessing, planning,and designing instruction (Chapters 7-15). Instructional design discussion includes four domains: concepts, declarative knowledge, problem solving, and procedural knowledge. When teachers understand the function of the instruction, their effectiveness and efficiency are enhanced (Chapters 3-15). Integration of explicit teaching practices with NCTM approach helps teachers maintain practices that work for students with diverse needs while integrating reformed-based mathematics practices (in Chapters 1, 7-15). Detailed guidelines, including scripted lessons, on HOW to design and deliver effective instruction. These sample lessons illustrate how to apply the explicit teaching sequence to various content areas and provide examples for preservice and inservice teachers to use when developing their own lessons.

Details

  • A print text
  • Free shipping

Additional information

Dimensions 1.40 × 8.40 × 10.90 in
Imprint

Format

ISBN-13

ISBN-10

Author

,

BISAC

Subjects

higher education, special education, EDU046000, Vocational / Professional Studies, Teacher Education, Math in Special Education