Middle School Math, Logic, and Problem Solving: Writing and Solving Equations
What's included
15 live meetings
12 hrs 30 mins in-class hoursAssessment
Students will receive weekly written progress reports.Class Experience
US Grade 5 - 8
This is the third course in year two of a series of middle school mathematics courses. These courses are taught in small-groups to provide individual instruction and social-learning opportunities aligned with a social constructionist or situated cognition view of learning. This series is based on an accelerated math curriculum that covers three years of content, aligned to Common Core Math Standards, over the course of two school years. It is perfect for students preparing to begin Algebra ahead of time, or those who need review and remedial support. The curriculum is problem-based this means instead of lectures or videos students work together as a small group to solve problems to discover principles and strategies with teacher guidance, as necessary. Therefore, we will spend approximately 90% of each class period working on problems and discussing them as a group. The use of discussion and problem-solving leads to generalized mathematics or proofs. This process prepares students well who may seek advanced mathematics in high-school or beyond. Students will complete a math notebook In the style of a main lesson book to help with recall and long-term retention. In this unit, students solve equations in the form of px+q=r and p(x+q)=r using only rational numbers. They will draw and write equations with a single variable to match diagrams and real world scenarios. They will use tape and hanger diagrams to represent real world problems and equations. They will practice algebraic equations for solving equations. Week 1: Day 1: We will begin with a readiness check to understand students existing conception of geometry and algebra ideas that may need to be addressed and inform instruction throughout the unit. Day 2: We will explore engaging contexts that are characterized by non-proportional relationships. The goal of this lesson is to demonstrate that strategies from year 1 dealing with proportional relationships need adjusting in order to be efficient. Day 3: We will work on representing and reasoning with the real world context of an algebraic equation and representing our understanding using tape diagrams. We will use these tape diagrams to solve more complex word problems. Day 4: We will shift our focus to equations as we connect them to our tape diagrams. We will match tape diagrams with equations, sort equations, and draw tape diagrams to match provided equations. We will then use the tape diagram to support us in solving equations using student's existing strategies and reasoning. Day 5: We will work to standardized our equations and understand the importance of standard ways of communicating information in math. We will learn what sorts of situations we can represent with the px+q=r equations and reason about solving them to prepare for generalizing solution methods. Week 2: Day 1: This lesson is very similar to week 1 day 5 except our focus is on equations of the form p(x+q)=r. We will focus on understanding the meaning of equations in context and choosing an appropriate representation for real world problems. Day 2: We will learn the differences between the two types of equations and work on distinguishing them both in context and mathematically using corresponding tape diagrams and the situations. We will sort equations and write our own equations to match stories. We will then solve the equations to answer questions about complex word problems. Day 3: We will begin the work of generalizing problem solving strategies using hanger diagrams. Students will learn to approach problems using inverse operations and concrete numbers before building the skill. We are also going to practice generating equivalent expressions to broaden our concept of how equations can be used. Day 4: We will continue our work of developing equation solving strategies using hanger diagrams with the goal of developing two strategies to solve an equation of the form p(x+q)=r. We will also focus on using the distributive property to accomplish that. We will work on matching equations to diagrams and solving them based on complex word problems. Day 5: We will practice what we have learned up to this point and our generalized problem solving strategies by working with negative numbers in equations through a variety of problem-solving activities including generating equations and chaining equations. Week 3 Day 1: We will review what we have learned so far through a focus on solving equations and understanding clues which can help us decide which of our two strategies will be more efficient. Day 2: The will bring together all the skills and concepts of the unit and expand on them so that students can solve complex word problems which can be represented with equations of the two forms without diagrams or additional scaffolding. They will choose appropriate representations to communicate their work to their peers. Day 3: We will further our understanding of equations and review percentages by using our skills to solve word problems related to percent change. Students will communicate their understanding using visuals and written explanations. Day 4: We will practice using equations to represent the relationships between angles and practice writing and solving equations to find unknown angle measures. This reviews content from unit 2 and builds fluency with both concepts. Day 5: Learners will independently take a final assessment to assess mastery and inform their next steps. They will demonstrate this through problem-solving and written/drawn explanations of their work and key concepts.
Learning Goals
7.EE.A Use properties of operations to generate equivalent expressions.
7.EE.A.1 Apply properties of operations as strategies to add, subtract, factor, and expand linear expressions with rational coefficients.
7.EE.A.2 Understand that rewriting an expression in different forms in a problem context can shed light on the problem and how the quantities in it are related.
7.EE.B Solve real-life and mathematical problems using numerical and algebraic expressions and equations.
7.EE.B.3 Solve multi-step real-life and mathematical problems posed with positive and negative rational numbers in any form (whole numbers, fractions, and decimals), using tools strategically. Apply properties of operations to calculate with numbers in any form; convert between forms as appropriate; and assess the reasonableness of answers using mental computation and estimation strategies.
7.EE.B.4 Use variables to represent quantities in a real-world or mathematical problem, and construct simple equations and inequalities to solve problems by reasoning about the quantities.
7.EE.B.4a Solve word problems leading to equations of the form px + q = r and p(x + q) = r, where p, q, and r are specific rational numbers. Solve equations of these forms fluently. Compare an algebraic solution to an arithmetic solution, identifying the sequence of the operations used in each approach.
7.EE.B.4b Solve word problems leading to inequalities of the form px + q > r or px + q < r, where p, q, and r are specific rational numbers. Graph the solution set of the inequality and interpret it in the context of the problem.
7.G.A Draw, construct, and describe geometrical figures and describe the relationships between them.
7.G.A.1 Solve problems involving scale drawings of geometric figures, including computing actual lengths and areas from a scale drawing and reproducing a scale drawing at a different scale.
7.G.B.5 Use facts about supplementary, complementary, vertical, and adjacent angles in a multi-step problem to write and solve simple equations for an unknown angle in a figure.
Other Details
Parental Guidance
Students will need to use Nearpod. They will need to click a link and enter their first name or initial. No other identifying information will be collected.
Supply List
Learners will need a ruler, pencil, and notebook. Learners may benefit from having a whiteboard and marker to provide additional, flexible, problem-solving space.
External Resources
In addition to the Outschool classroom, this class uses:
Teacher expertise and credentials
Professional Experience:
I have been a math tutor for over 12 years and have worked with students from ages 5-25 in small group and academic settings including serving as a primary teacher for home educated learners. I have received training and tutoring certification/awards from nationally recognized organizations. I was a group supplemental instruction leader for math at the collegiate level for four years at ETSU including working with dual enrolled and accelerated learners. I have taught and tutored math up to a graduate level in algebra, geometry, probability, and quantitative reasoning.
Academic Experience:
Constructivism and Mathematics, Science, and Technology Education
This graduate level online course for educators used practical examples and empirical research to connect the educational philosophy of constructivism to best practices in STEM education and demonstrated online teaching strategies for this endeavor. It highlighted the power of solving problems through building and applying understandings rather than rote processes which influences the problem-centered curriculum This class also addressed common misconceptions or alternative schemas students develop for math and science prior to instruction and provided ideas for experiments and explorations to adjust these conceptions.
Math 1410 Numbers, Concepts, and Algebra for Math Teachers
This in-person semester long coursed prepared students to teach common core mathematics to students in grades kindergarten through eight including early access to algebra. It included practical teaching experience, ensuring the personal math conceptual fluency of each educator, and demonstrating expertise on the Praxis math exam for educators.
Math 1420: Logic, Problems, and Geometry for Math Teachers
This in-person semester long course prepared teacher candidates to teach common core mathematics to students in grades kindergarten through eighth including advanced ideas of logic, problem solving, and geometry using a constructivist lens.
Reviews
Live Group Class
$75
weekly or $225 for 15 classes5x per week, 3 weeks
50 min
Completed by 11 learners
Live video meetings
Ages: 11-14
4-6 learners per class
Financial Assistance
Tutoring
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