SEC Math 1 Teachers Guide

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MATHEMATICS I General Standard: The learner demonstrates understanding of key concepts and principles of number and number sense as applied to measurement, estimation, graphing, solving equations and inequalities, communicating mathematically and solving problems in real life.

Transcript of SEC Math 1 Teachers Guide

Page 1: SEC Math 1 Teachers Guide

MATHEMATICS I

General Standard: The learner demonstrates understanding of key concepts and principles of number and number sense as applied to measurement, estimation, graphing, solving equations and inequalities, communicating mathematically and solving problems in real life.

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Quarter I: Real Number System, Measurement and Scientific Notation

Topic: Real Number System

Time Frame: 20 days

Stage 1 Content Standard: The learner demonstrates understanding of key concepts of real number system.

Performance Standard: The learner formulates real life problems involving real numbers and solves these using a variety of strategies.

Essential Understanding(s): Daily tasks involving measurement, conversion, estimation and scientific notation making use of real numbers.

Essential Question(s): How useful are real numbers?

The learner will know: • the real number system • rational and irrational numbers • the importance of order axioms • fundamental operations with real numbers • the application of real numbers to daily life.

The learner will be able to: • apply real numbers in a variety of ways to other disciplines. • identify/give examples of rational and irrational numbers • illustrate rational and irrational numbers in practical

situations • use the appropriate symbolic notation to illustrate the

order axioms. • cite examples/situations where order axiom is applied. • perform the sequence of operations with real numbers. • solve problems in other disciplines such as science, art,

agriculture, etc.

Stage 2 Product or Performance Task: Problems formulated 1. are real –life related 2. involve real numbers, and 3. are solved using a variety of strategies.

Evidence at the level of understanding Learner should be able to demonstrate understanding of the real number system using the six (6) facets of understanding: Explaining how numbers are expressed in different ways. Criteria: Thorough Coherent

Evidence at the level of performance Assessment of problems formulated based on the following suggested criteria: • real-life related problems

• problems involve real numbers.

• problems are solved using a variety of strategies

Tools: Rubrics for assessment of problems formulated and solved

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Clear Interpreting the differences and similarities between rational and irrational numbers. Criteria: Thorough Illustrative Creative Applying a variety of techniques in solving daily life problems. Criteria: Appropriate Practical Accurate Relevant Developing Perspective on the types of real numbers. Criteria: Perceptive Open-minded Sensitive Responsive Showing Empathy by describing the difficulties one can experience in daily life whenever tedious calculations are done. Criteria: Open Sensitive Responsive

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Manifesting Self-knowledge by assessing how one can give his/her best solution to a problem/situation. Criteria: Reflective Responsive Relevant

Stage 3 Teaching/Learning Sequence

1. Explore

At this stage, the teacher should be able to: a. give the learner hands-on activities on how to identify /name a real number:

• Locating numbers on the number line

• Giving the coordinate of a point on the number line • Naming a real number between two given numbers.

b. self-evaluate the learner by giving him activity sheets containing questions ( including HOTS) on real numbers . c. let the learner share what he has learned about real number system through journal writing. d. allow the learner to apply the concept to real life by solving worded problems involving real numbers.

Activity 1. Let some selected students line up to form/picture a number line. Make one student, probably the middle one, represents 0. Use this to determine the coordinate of a point represented by a student on that number line. Let the students explain their answer. You may introduce this activity as a game. Help the students by giving activity cards with guided instructions. Activity 2. Let a student choose a partner. Then, give each pair an activity sheet containing the number line being drawn either on a graphing paper or activity card. Guided instructions must be given. Let the students play by taking turns in naming a number between two given numbers. The teacher may initially give the two numbers and must be ready to check if the number to be given is between the other two. The game may start with whole numbers, then integers, and later on with rational or irrational numbers. In the end, they must identify the kind of number being inserted. Activity 3. Give each student enough time, like 5-10 minutes, to think of a situation and formulate a real life problem involving the basic operations on real numbers. Then, if they are ready, they will take turn in presenting the problem. Any student can

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give the answer to the problem. The teacher will ask the one who gave the problem if the presented solution is correct. Activity 4. Guessing Game: Directions: 1. Think of a four-digit number. 2. Add the digits and subtract the sum from the original number. 3. Encircle one digit. 4. Tell me the digits that are not circled. 5. Then, I’ll tell you what you encircled. Note: The answer is taken by subtracting the sum of digits that are not circled from a multiple of nine that is greater than but closer to the sum of the digits.

Example: Let the four-digit number be: 1 472 The sum of the digits is 14. ( from 1+4+7+2) Subtracting 14 from 1 472, we get 1 458. Suppose the encircled digit is 8. The sum of the remaining digits will be 10. from 1+4+5 ) Note that: The multiple of nine that is greater than but closer to 10 is 18. Subtracting 10 from 18, we get 8. Hence, the encircled digit is 8.

Activity 5. Let the students answer an activity sheet where the questions are simple problems they experienced in daily life. They must explain the solution to the problem.

2. Firm Up

At this stage, the teacher should be able to: a. ask the students to conduct an investigation considering the following steps:

• Give a list of different numbers • Change the form of the given set of numbers by doing the basic operations and simplifying the results.

• Analyze/Observe the results • Classify the numbers as to their types.

• Classify the numbers into rational or irrational b. perform fundamental operations on real numbers and classify results

c. cite examples/situations where order axiom is applied. d. solve daily life problems involving different operations on real numbers.

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Activity 6. Apply cooperative learning. First, group the students into 4. Let each group be working on an activity sheet where one Is different from the other. Ask each group to investigate a given set of numbers. Guide questions must be given. Expect them to have analyzed and classified each of the numbers after changing its form. Let them explain the results. Activity 7.

Ask the students to answer several activities on the operations applied to the set of real numbers including the order axiom. Let them write the complete solution to each number.

Activity 8. Let the students answer activities on solving daily life problems involving different operations on real numbers.

3. Deepen At this stage, the teacher should be able to:

give activities that will provide the learner the opportunity to reflect on, revisit, or rethink the lesson. a. Explain thoroughly the difference between rational and irrational numbers by giving several examples. b. Investigate on the relationship (similarity or difference) between rational and irrational numbers. c. Investigate patterns on rational or irrational numbers.( both manually and with the use of calculators) d. Generalize and write a report of what has been discovered about real numbers e. Formulate/Solve problems they experienced in daily life.

Activity 9. Instruct the students to be ready for an oral/written test which is in the form of a team competition. The test will include investigating patterns on rational or irrational numbers( they are allowed to use a calculator), similarity or difference between rational and irrational numbers, problem solving involving the different operations on real numbers.

Activity 10. Give each student enough time, like 10-15 minutes, to answer activities that will provide them the opportunity to reflect on or rethink of the lesson on real numbers. It may be in the form of journal writing, or application of the concept to problems they experienced in daily life. 4. Transfer

At this stage, the teacher should be able to: demonstrate his/her understanding of the topic by : give activities that will demonstrate students’ understanding of the topic :

• formulate/create problem situations using real numbers • construct scale models of houses, toys, bridges, etc. indicating the use of real numbers. These will serve as

students’ project for exhibit during math expo.

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Activity 11. Group the students into four or five depending on the number of students per class. Each group will then select its leader. The group will decide on the problem to be presented making use of the set of real numbers. They will visualize and present the solution to the said problem.

Activity 12. Give each group enough time to construct scale models of either houses, toys, bridges, etc. depending on its problem indicating the use of real numbers. This will serve as students’ project for exhibit during math expo. Resources/Materials: See Appendix Quarter I : Real Number System, Measurement and Scientific Notation

Topic: Measurement

Time Frame: 25 days

Stage 1 Content Standard: The learner demonstrates understanding of the key concepts of measurements.

Performance Standard: The learner formulates real-life problems involving measurements and solves these using a variety of strategies.

Essential Understanding(s): Physical quantities are measured using different measuring devices. The precision and accuracy of measurement depend on the measuring device used.

Essential Question(s): How are different measuring devices useful? How does one know when a measurement is precise? accurate?

The learner will know:

• the concept of measurement • the different measuring devices and their respective

uses. • conversion of units of measure. • rounding off numbers • approximation.

The learner will be able to: • use different tools/devices and units of measures. • cite situations where measuring tools are appropriately used. • convert units of measure. • round off numbers. • cite real life situations where rounding off numbers is applied. • approximate measurement by rounding off to its nearest

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• how to solve problems involving measurements using a variety of strategies.

desired value. • formulate and solve real life problems applying conversion of

units.

Stage 2 Product or Performance Task: Problems formulated

1. are real –life related 2. involve measurement and

3. are solved using a variety of strategies.

Evidence at the level of understanding Learner should be able to demonstrate understanding of measurement using the six (6) facets of understanding: Explaining how to use the calibration model and find its degree of precision. Criteria: Thorough Clear Accurate Justified Interpreting through story telling situations that describe the appropriate use and choice of measuring devices. Criteria: Illustrative Accurate Justified Significant Applying a variety of techniques in posing and solving daily life problems involving measurement Criteria: Appropriate Practical Revealing Empathy by role-playing the

Evidence at the level of performance Assessment of problems formulated based on the following suggested criteria:

• real-life problems

• problems involve measurement

• problems are solved using a variety of strategies

Tools: Rubrics for assessment of problems formulated and solved

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uses of the primitive measuring devices for the people who invented them and discuss how they got accurate results. Criteria: Perceptive Open Manifesting Self-knowledge by assessing how one can give his/her best solution to a problem/situation on measurement. Criteria: Reflective Responsive

Stage 3

Teaching/Learning Sequence:

1. Explore

At this stage, the teacher should be able to start with interesting exploratory activities that will hook and engage the learner on what is going to happen or where the said pre-activities would lead to.

a. Group activities

• Identify and describe the different measuring devices

• cite real life situations where these measuring devices are used/important. b. Group presentations of authentic situations showing the evolution of the different measuring devices c. Reaction paper or journal writing about the group presentation.

Activity 13.

Let the students answer activity sheets on identifying and describing the different measuring devices. This may be done by presenting a model/actual measuring device ( if available) or just a drawing of these measuring devices. Questions on who invented the said device may also be included. Questions about how to get accurate results must also be given consideration.

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Activity 14.

Give each student enough time, like 5-10 minutes to think of situations that describe the appropriate use and choice of the different measuring devices. Then, let them discuss the situations they listed with their group members. Let each group take turns in presenting their consolidated story.

Activity 15. Let each group present authentic situations showing the evolution of the different measuring devices. These presentations may serve as one of their projects. Activity 16. Let the students write reaction paper or journal about the group presentation.

2. Firm Up

At this stage, the teacher should be able to give sample activities or experiences that the learner will have to undergo in supporting findings in the exploratory activities and for a deeper understanding of the topic.

a. The learner shall conduct an activity

• Using the given measuring instruments, find the measures of classroom table, backboard, window frames, etc. ( Bring the class outdoor and find familiar objects. Perform the same activity.)

• Measuring objects of different shapes.

• Approximating measurements to the nearest unit of measure. • Estimating and finding actual measurements of objects

• Finding the perimeter and area of plane figures; surface area and volume of solid figures.

• Formulating problems based on the given information. b. Giving more exercises which may be in problem form. c. Performing experiments/activities that will verify formulas for finding areas of plane geometric figures and volumes of solid figures. d. Solving teacher-made problems about measurements.

Activity 17.

Let the students perform or conduct activities on actual measurements using the different measuring devices. It may be the measures of classroom table, backboard, window frames, etc. Allow the students to perform the said activity even outside the classroom. For linear measurements, let them use different units to compare one unit with that of the other. Let them do also conversion from one unit to another using the metric converter or a conversion table.

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Activity 18.

Extend activity #17 to measuring objects of different shapes or even irregular shapes. Let the students discuss the similarities and the differences encountered by the groups in getting the measures of the different objects.

Activity 19. Directions:

a. Group the students into fives. b. Pose this Activity: Problem:

How long would it take you to count to one million (1, 2, 3, 4, 5, …, 1 000 000) at the rate of one number per second? (Assume that you will not stop until the task has been completed)

c. Ask for the answer in more commonly understood units of time, such as days, weeks, months, or years. d. Allow students to make an estimate/ approximation before they compute. e. Discuss the results.

3. Deepen At this stage, the teacher should be able to give activities that will provide the learner the opportunity to reflect on, revisit, or rethink the lesson.

• Explain thoroughly the process/procedure undertaken in every activity, including the computation part. • Identify objects whose area/volume can be found using the formulas.

• Explore the possibilities of finding the measures of object of irregular shapes. (football, star, etc. ) • Investigate the relationship between the number of square units/cubic units in a given figure and the area/volume of

the given figure. • Write a journal on the activities undertaken.

Activity 20. Let the students answer activity sheets that will identify the formula for the area or volume of a given object. The questionnaire may be in the form of multiple choice or identification. They may also be asked to explain the step by step solution on how to apply the formula. Activity 21. Let the students write reaction paper or journal about the different activities being undertaken.

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Activity 22. Ask the students to bring a box full of ping-pong balls to solve the problem below.

Group the students into four members each.

Problem: A. For a classroom of average size, do you think we could fit one million ping-pong balls?

1. List the assumptions you make in estimating your answer. 2. Find the volume of the box full of ping-pong balls. 3. Use a tape measure and approximate the volume of the classroom. 4. Compare the volume of the classroom with the volume of the box full of ping-pong balls. 5. How many ping-pong balls are there in the box?

B. Do you think one million ping-pong balls could fit into the room? Explain. 4. Transfer At this stage, the teacher should be able to give the learner activities that will provide him the opportunity to demonstrate his /her understanding of the topic by:

• formulating and solving a situation/problem.

• writing a report on what he/she has learned about measurement. • Improvising measuring instruments for finding linear measures of physical objects.

• creating miniature models of your dream house. Activity 23. Group the students into four or five depending on the number of students per class. Each group will then select its leader. The group will decide on the problem to be presented making use measurements. They will visualize and present the solution to the said problem. Activity 24. Give each group enough time to construct scale models of either houses, toys, bridges, etc. depending on its problem

indicating the use of measurements. Express dimensions of the actual structure to the scale model as ratios. This will serve as students’ project for exhibit during math expo.

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Activity 25. Using the same grouping, let the students design a game. They will make use of measurements applying the set of real numbers. Resources

See Appendix

Quarter 1 : Real Number System, Measurement and Scientific Notation

Topic: Scientific Notation

Time Frame: 5 days

Stage 1 Content Standard: The learner demonstrates understanding of the key concepts of scientific notation.

Performance Standard: The learner formulates real-life problems involving scientific notation and solves these using a variety of strategies.

Essential Understanding(s): Big and small quantities can be expressed conveniently in scientific notation.

Essential Question(s): Why are measures of certain quantities expressed in scientific notation? How?

The learner will know:

• numbers that are expressed in scientific notation.

• real life measures where scientific notation is applied. • the application of scientific notation to different disciplines.

The learner will be able to:

• express numbers in scientific notation and vice- versa.

• solve real life problems involving scientific notation. • cite real life situations where scientific notation is applied.

• formulate and solve real life problems involving scientific notation.

Stage 2 Product or Performance Task: Problems formulated

1. are real –life related 2. involve scientific notation and

3. are solved using a variety of strategies.

Evidence at the level of understanding Learner should be able to demonstrate understanding of scientific notation using the six (6) facets of understanding: Explaining how big and small quantities are expressed in scientific notation. Criteria:

Evidence at the level of performance Assessment of problems formulated based on the following suggested criteria:

real-life problems problems involve real numbers using scientific notation

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Thorough Accurate Justified Interpreting meaning of scientific notation by considering the size of an atom, distances of planets, etc. Criteria: Illustrative Meaningful Justified Applying a variety of techniques in posing and solving daily life problems involving very large or very small numbers expressed in scientific notation. Criteria: Appropriate Practical Accurate Manifesting Self-knowledge by showing the usefulness of scientific notation in solving a problem. Criteria: Reflective Responsive Showing Empathy to persons who encounter difficulties in expressing big and small quantities. Criteria: Sensitive Perceptive

problems are solved using a variety of strategies

Tools: Rubrics for assessment of problems formulated and solved

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Developing Perspective on other ways to express big and small numbers. Criteria: Appropriate Practical

Stage 3 Teaching/Learning Sequence:

1. Explore

At this stage, the teacher should give interesting exploratory activities that will hook and engage the learner on what is going to happen or where the said pre-activities would lead to:

a. group activities on

• identifying/recognizing a pattern from a given set of numbers. • citing real life situations where scientific notation can be used.

b. group presentations of authentic situations where scientific notation are used. c. giving reactions /comments to the given presentation.

Activity 26. Directions: Ask students to work individually on this activity. Read the numbers in the table from top to bottom, then answer the following questions:

1. What pattern do you observe between succeeding numbers? 2 Guess the next term of the sequence.

3. Write down a rule for finding the value of numbers with negative exponents.

10n

106 = ?

105 = ?

104 = ?

103 = 1 000

102 = 100

101 = 10

100 = 1

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10-1

= 10

1

10-2

= 100

1

10-3

= 1000

1

10-4

= ? 10

-5 = ?

10-6

= ? 5. What happens when the pattern continues? 6. Find the relationship between the succeeding numbers.

2. Firm Up At this stage the teacher shall present sample activities or experiences that the learner will have to undergo for a deeper understanding of the topic. a. The learner shall complete

• activity sheets on expressing numbers in scientific notation • exercises involving fundamental operations using scientific notation.

b. The learner shall solve more exercises involving scientific notations which may be in problem form. c. Solve problems involving scientific notation.

Activity 27.

Exploration Activity:

Have students answer the worksheet in pairs. Study the table below.

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Set A Set B Set C

Questions: 1. Observe the numbers in Column I and Column II in Set A.

How do the numbers in each pair compare? How are the numbers in Column I expressed? Column II?

2. For each set, look at the second number. How does the second number compare with the number in decimal form? What can you say about the second number in each pair?

Column I Decimal Form

8 81

814 8 143

Column II Scientific Notation

8 x 10

0

8.1 x 101

8.14 x 102

8.143 x 103

Column I

Decimal Form

14.325 143.25 1 432.5

Column II Scientific Notation

1.4325 x 10

1

1.4325 x 102

1.4325 x 103

Column I

Decimal Form

0.3768 0.03768

0.003768

Column II

Scientific Notation

3.768 x 10-1

3.768 x 10

-2

3.768 x 10-3

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3. Observe the position of the decimal point in each number expressed in scientific notation. Where do you find the decimal point?

Note: If the decimal point appears after the first nonzero digit, such decimal number is in

STANDARD POSITION 4. Discuss your findings with your partner.

5. Repeat steps 1 to 4 for Sets B and C. 6. When do you say that a number is expressed in scientific notation? 7. Complete this statement: A number is expressed in scientific notation if it is expressed as

the product of a number in standard position and________________. 3. Deepen At this stage, the teacher must give the learner the opportunity to reflect on, revisit, or rethink the lesson through the following:

• Explain thoroughly the process/procedure undertaken in every activity, including the computation part. • Investigate on the procedure use in scientific notation for very big numbers and for very small numbers.

• Journal writing on the usefulness of scientific notation.

Activity 28. A. Sample Problem A jeepney park charges the following rates: P15.00 for the first hour, P10.00 for the next hour and P5.00 for each

additional hour. How much does the jeepney park charge for six hours?

Solution with the corresponding rubric points: Let n pesos be the jeepney park charge for 6 hours. Php15.00 is the charge for the first hour ( 1 point ) Php10.00 is the additional charge for the 2

nd hour

Php 5.00 is the charge for each additional hour after 2 hours. Thus, n = 15 + 10 + 5( 4 ) ( 1 point ) = 15 + 10 + 20 = Php45.00 ( 1 point ) Total points : 3

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Scoring Guide (Rubric) for Problem Solving

B. Problem Solving Activity:

Solve the following .Show all solutions. Express the answers in scientific notation.

1. A watch ticks four times each second. How many ticks will it make each day? 2.The sun is approximately 1.5 x 10

11 m from Earth.

How far from the Earth is the nearest star if it is approximately 300 000 times as far as the sun? 3. A person’s heart beats approximately 72 times per minute. How many times does a heart beat in an average lifetime of 75 years? (Assume all years have 365 days.). 4. Biologists use the micrometer or the micron to measure short lengths. One micrometer is equal to 0.001 millimeter. If a cell is 47 micrometers long, what is its length in millimeter?

Points Criteria

3 Understood the problem, performed the correct operation/s, and got the correct answer.

2 Understood the problem, performed the correct operation/s, and got an incorrect answer

1 Attempted to solve the problem, performed an incorrect operation/s and got an incorrect answer. Got the correct answer, but no solutions/wrong solution.

0 No attempt

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4. Transfer Let the learner demonstrate his/her understanding of the topic by:

• formulating and solving a situation/problem that will make use of scientific notation. • writing a report about the advantages/disadvantages of using scientific notation.

• creating a miniature model , like the solar system indicating the distances(express in scientific notation) of each planet.

Activity 29. Prepare contest questions. It may be a team competition of 4 members. Classify the questions as 15 – sec; 30 – sec; and 1- minute. Each question must be given orally with the equivalent time allotment. Give the points as 2 for the 15 sec, 3 for 30 sec, and 5 for the 1 minute, respectively. The first 3 highest scorers must be3 declared as winners. Activity 30.

Let the students create a model solar system. Express the distances in scientific notation. Let them do this project by group.

Activity 31. Another project that they could make is to design a game. Give them guide questions in making the game.

Resources (Web sites, Software, etc.)

See Appendix

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Quarter II : Algebraic Expressions, First-Degree Equations and Inequalities in One Variable

Topic: Algebraic Expressions

Time Frame: 25 days

Stage 1 Content Standard: The learner demonstrates understanding of the key concepts of algebraic expressions.

Performance Standard: The learner models situations using oral, written, graphical and algebraic methods to solve problems involving algebraic expressions.

Essential Understanding(s): Algebraic expressions represent patterns and relationships that guide us in understanding how certain problems can be solved.

Essential Question(s): Why are algebraic expressions useful?

The learner will know: • translation of verbal phrases to mathematical

expressions and vice-versa

• laws on integer exponents • operations of algebraic expressions

• rules on finding special products

• types of special products • special products of two binomials

• relationships between special products and factors • complete factorization of polynomials

• applications of special products and factors in solving real life problems

The learner will be able to: • translate verbal phrases to mathematical expressions and

vice-versa

• simplify algebraic expressions using the laws on integer exponents

• perform fundamental operations on algebraic expressions

• explore the product of two binomials and search for patterns

• identify special products

• find special products of two binomials • discover the relationships between special products and

factors

• find the complete factorization of polynomials • apply factoring polynomials in solving real life problems

Stage 2

Product or Performance Task: Situations modeling the use of oral, written, graphical and algebraic methods to solve problems involving algebraic

Evidence at the level of understanding The learner should be able to demonstrate understanding of algebraic expressions using the six (6) facets of understanding:

Evidence at the level of performance Performance assessment of situations involving algebraic

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expressions Explaining how the language of mathematics is used to show /describe real-life situations. Criteria: Clear Coherent Justified Interpreting representations of mathematical situations Criteria: Illustrative Meaningful Applying algebraic expressions in daily life situations Criteria: Appropriate Practical Relevant Developing Perspective on the various ways of writing algebraic expressions and solving a problem Criteria: Critical Insightful Credible Showing Empathy to persons who encounter difficulties in the lesson. Criteria: Open Sensitive

expressions based on the following suggested criterion:

• Use oral, written, graphical and algebraic methods in modeling situations

Tools: Rubrics of situations modeling the use of oral, written, graphical and algebraic methods

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Responsive Manifesting Self-knowledge by discussing the best and most effective strategies that one has found for solving problems Criteria: Insightful Clear Coherent

Stage 3

Teaching/Learning Sequence

1. Explore

Initially, let the teacher begin with some interesting and challenging exploratory activities that will make the learner aware of what is going to happen or where the said pre-activities would lead to through meaningful and relevant real life context.

• Playing “Guess my rule” game and writing mathematical expression for the rule

• Ask students to surf the internet and look for similar games which they can share to the class. • Provide students with worksheets on translating mathematical expressions to English phrases and vice-versa

• Ask students to give their own English phrases and translate them to mathematical expressions and vice-versa • Completing teacher-made activity sheets on evaluating algebraic expressions

• Completing teacher-made activity sheets on addition and subtraction of algebraic expressions

• Investigating relationships among integer exponents • Finding the product of algebraic expressions

.

2. Firm Up

These are the enabling activities/ experiences that the learner will have to go through for the learner to understand • Simplifying algebraic expressions

• Performing operations on algebraic expressions

• Finding special products

• Factoring, the reverse process of finding the product

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3. Deepen

4. Transfer

Resources

See Appendix

Activities in this stage shall provide opportunity for differentiated instruction for the learner to reflect, revisit, revise and rethink. Further, the learner shall express his/her understanding and engage in meaningful self-evaluation.

• Summarizing the steps in performing the fundamental operations on algebraic expressions • Writing journals on how knowledge of algebraic expressions help in finding solutions to challenging

computations

• Citing situations in the environment where the concepts of algebraic expressions and operations are applied

Learner’s understanding is demonstrated through culminating activities that reflect relevant and authentic problems/situations.

• Applying special products and factors in real life problems

• Creating/posing and solving problems using a variety of strategies

• Presenting a problem solving plan using models • Making a flowchart on intelligent digital model applying algebraic expressions (e.g. robotics,

software, etc.)

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Quarter II : Algebraic Expressions, First-Degree Equations and Inequalities in One Variable

Topic: First-Degree Equations and Inequalities in One Variable

Time Frame: 25 days

Stage 1 Content Standard: The learner demonstrates understanding of the key concepts of first-degree equations and inequalities in one variable.

Performance Standard: The learner models situations using oral, written, graphical and algebraic methods to solve problems involving first-degree equations and inequalities in one variable.

Essential Understanding(s): Real-life problems where certain quantities are unknown can be solved using equations and inequalities in one variable.

Essential Question(s): How can we use equations and inequalities to solve real life problems where certain quantities are unknown?

The learner will know: • mathematical expressions, equations and

inequalities

• linear equations and inequalities • properties of equations and inequalities

• applications of first-degree equations and inequalities

The learner will be able to: • differentiate mathematical expressions from equations and

inequalities

• identify and describe linear equations and inequalities in one variable

• give examples of linear equations and inequalities in one variable

• describe situations where equations and inequalities are used • enumerate and explain the different properties of equations and

inequalities

• give illustrative examples of each property of equations and inequalities

• apply the properties of equations and inequalities in solving first-degree equations and inequalities in one variable

• verify and explain the solutions to problems involving equations and inequalities

• extend, pose, and solve related problems in real life Stage 2

Product or Performance Task: Situations modeling the use of oral, written, graphical and algebraic methods to solve problems involving first-degree equations and inequalities in one variable

Evidence at the level of understanding The learners should be able to demonstrate understanding of first-degree equations and inequalities using the six (6) facets of understanding:

Evidence at the level of performance Performance assessment of situations involving first-degree equations and inequalities in one

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Explaining the properties of first-degree equations and inequalities in one variable. Criteria: Clear Coherent Justified

Interpreting mathematical conjectures and arguments involving first-degree equations and inequalities in one variable Criteria: Illustrative Meaningful

Applying first-degree equations and inequalities in one variable in daily life situations Criteria: Appropriate Practical Relevant

Developing Perspective on the various ways of writing first-degree equations and inequalities in one variable in solving a problem Criteria: Critical Insightful Credible

Showing Empathy by describing difficulties one can experience in daily life whenever tedious calculations are done without using the concepts of first-degree equations and inequalities in one variable Criteria: Open

variable based on the following suggested criterion.

• Use oral, written, graphical and algebraic methods in modeling situations

Tools: Rubrics of situations modeling the use of oral, written, graphical and algebraic methods

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Sensitive Responsive

Manifesting Self-knowledge by discussing the best and most effective strategies that one has found for solving problems involving first-degree equations and inequalities in one variable Criteria: Insightful Clear Coherent

Stage 3

Teaching/Learning Sequence:

1. Explore 2. Firm Up

Start with interesting exploratory activities that will hook and engage the learner on what is going to happen or where the said pre-activities would lead to:

• Group activities/games and puzzles on:

• identifying and describing linear equations and inequalities • citing real life situations involving linear equations and inequalities

• Online/offline presentations of authentic situations involving linear equations and inequalities (e.g. ICT tools CONSTEL CDs, open-source learning materials, E-TV learning episodes, etc.

Giving reactions to online/offline presentations

These are the enabling activities or experiences that the learner will have to undergo in supporting findings in the exploratory activities in order to equip them for meaningful understanding.

• Giving exercises on representing situations using linear equations and inequalities • Group activity on enumerating, explaining and giving illustrative examples of the properties of equations and

inequalities

• Solving exercises on first-degree equations and inequalities in one variable where the properties are applied • Verifying solutions using scientific calculator/computer

• Solving problems involving first-degree equations and inequalities in one variable

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3. Deepen

4. Transfer

Resources

See Appendix

Activities in this stage shall provide opportunity for the learner to reflect, revisit, revise and rethink about a variety of experiences. Moreover, the learner shall express his/her understanding and engage in multidirectional self-assessment.

• Making and evaluating mathematical conjectures and arguments involving first-degree equations and inequalities in one variable

• Investigating solutions to problems related to first-degree equations and inequalities in one variable

• Writing journals on situations or experiences involving equations and inequalities that need to be valued by every learner

Applications of learner’s understanding are demonstrated through culminating activities that reflect meaningful and relevant problems/situations.

• Applying mathematical thinking and modeling to solve problems in other disciplines such as art, music, science, business, etc.

• Creating/posing and solving problems involving linear equations and inequalities in one variable using a variety of strategies

• Using models present a problem solving plan on linear equations and inequalities in one variable using models

Making a flowchart on intelligent digital model applying first-degree equations and inequalities in one variable (e.g. robotics, software, business model, etc.)

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Quarter III : Rational Algebraic Expressions, Linear Equations and Inequalities in Two Variables

Topic: Rational Algebraic Expressions

Time Frame: 25 days

Stage 1 Content Standard: The learner demonstrates understanding of key concepts of rational algebraic expressions.

Performance Standard: The learner presents solutions to problems involving rational algebraic expressions using numerical, physical, and verbal mathematical models or representations.

Essential Understanding(s): Simplifying rational algebraic expressions involve factorization and operations similar to operations on numerical fractions.

Essential Question(s): How can rational algebraic expressions be simplified?

The learner will know:

• fractions in simplest form; • operations on fractions;

• rational algebraic expressions in simplest form; • operations on rational algebraic expressions; and

• applications of rational algebraic expressions.

The learner will be able to:

• explore problems and describe results using numerical, physical, and verbal mathematical models or representations;

• use his/her reading, listening and visualizing skills to interpret mathematical ideas;

• simplify rational algebraic expressions by using various methods/techniques;

• perform operations on rational algebraic expressions and justify steps by stating the mathematical properties used;

• analyze rational algebraic expressions, formulate relationships and extend them to other cases; and

• apply the concept of rational algebraic expressions in solving real life situations.

Stage 2 Product or Performance Task: Solutions to problems involving rational algebraic expressions are presented using numerical, physical, and verbal mathematical models or representations.

Evidence at the level of understanding The learner should be able to demonstrate understanding by covering the six (6) facets of understanding:

Explaining by justifying how one’s answer is changed to simplest form. Criteria:

Clear

Evidence at the level of performance Assessment of presentation of solutions to problems involving rational algebraic expressions based on the suggested criterion: • the use of numerical,

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Coherent Justified

Interpreting how best procedures for simplifying rational expressions are determined. Criteria:

Illustrative Creative Accurate

Applying the appropriate operations in simplifying rational expressions. Criteria:

Appropriate Accurate

Developing Perspective on how to choose the best solution in simplifying rational expressions

Criteria: Credible Insightful

Showing Empathy on people’s difficulties in performing operations involving rational expressions. Criteria:

Perceptive Responsive Sensitive

Manifesting Self-Knowledge in recognizing the best solution to a given situation involving rational expressions. Criteria:

Reflective Insightful

physical, and verbal mathematical models or representations.

Tools: Rubrics for assessment of solutions to problems

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Stage 3 Teaching/Learning Sequence:

1. Explore

Activity 1:

Show the following figures on the board and ask students to observe them. (Physical models could also be used.)

Ask the following questions:

1. What can you say about the 3 figures? 2. What does each shaded part represent? 3. If the 3 figures have the same sizes, how are the three shaded parts related? 4. How would you show that the three shaded parts are equal or the fractions representing them are equivalent? 5. How would you simplify the following fractions?

Initially, begin with some interesting and challenging exploratory activities on rational numbers that will make the learner aware of what is going to happen or where the said pre-activities would lead to through meaningful and relevant real life context.

Let the students: a. explore problems and describe results using numerical, physical and verbal mathematical models or

representations. b. use his/her reading, listening and visualizing skills to interpret mathematical ideas. c. simplify rational numbers by using various methods/techniques.

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a. 36

24 b. 56

35 c. 48

32−

d. 54

45− e.

18

12

6. When do you say that a fraction is in its simplest form?

2. Firm Up

Activity 2:

1. Present a problem in real life.

Mr. Gabriel has a farmland which he subdivided equally among his 6 children and 22 grandchildren. a. How would you represent the area of Mr. Gabriel’s farmland? b. If one-third of Mr. Gabriel’s farmland is given to his children, what expression represents the part of the land they

would receive? How about the part of the land each child would receive? c. If the remaining part will be shared by the grandchildren, what expression represents the part of the land they would

receive? How about the part of the land each grandchild would receive? d. How would you describe the expressions you got in (c) and (d)? e. How would you compare these expressions with the fractions which you already studied before? f. How would you differentiate rational numbers from rational expressions? g. Which of the following are rational algebraic expressions? Explain your answer.

These are the enabling activities/experiences that the learner will have to go through to validate understanding on rational algebraic expressions during the activities in the exploratory phase. These would answer some misconceptions on rational algebraic expressions that have been encountered in real life situations.

At this phase, the students should be able to: a. apply the concept of rational algebraic expressions by presenting problems in real life. b. describe solutions using numerical, physical and verbal mathematical models or representations. c. simplify rational algebraic expressions by using various methods/techniques. e. perform operations on rational algebraic expressions. f. explain results and make the necessary justification of each steps used by stating the mathematical properties

applied.

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a. 2

4

−x

x f. 5

5

+

x

x ; x = 5

b.

44

4

2

2

++

xx

x g. ( )( )32

652

−−

+−

xx

xx

c. 7

3 h. x

xxx

3

6123 24 −+

d. x2

5 i. 44

+x

e. 32

278 3

x

x j . 3

33

−x

x

2. Let the students discuss the results of the activity.

3. Deepen

Activity 3:

1. Show the following are rational algebraic expressions.

a. 2

4

−x

x b. 2

42 +x c. 96

9

2

2

++

xx

x d. xx

xx

82

127

2

2

+

++

Ask the following questions:

Activities in this phase shall provide opportunity for the learner to reflect, revisit, revise and rethink about a variety of experiences. Moreover, the learner shall express his/her understanding and engage in multidirectional self-assessment.

The students should be able to:

a. explain/write the series of steps in simplifying rational algebraic expressions (e.g. application of properties of real numbers, the different factoring procedures).

b. use pictures, multimedia presentations, or daily life experiences and observations where concepts of rational algebraic expressions are applied (e.g. business, science, industry, etc.)

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a. Which of the above expressions are expressed in simplest form? Why? b. Why do you say that the others are not written in their simplest form? c. How would you simplify these expressions? Give the steps. d. What mathematics concepts or ideas would you apply to simplify the expressions? e. How would you apply these mathematics concepts or ideas in simplifying rational algebraic expressions? f. Express the given rational algebraic expressions in simplest form.

2. Check for understanding:

a. Ask the question: Is 12+

−x a rational algebraic expression? Why?

b. Cite situations that could be represented by rational algebraic expressions. What expressions represent these situations?

Activity 4:

Perform group activities using pictures, multimedia presentations, or daily life experiences and observations where concepts of rational algebraic expressions are applied (e.g. business, science, industry, etc.) such as:

• Investigating relationship of quantities. e.g. the distance (d) from the fulcrum of a person of weight (w) on a see-saw. • Finding the actual size of the rooms of a building from a scale model.

• Designing a scale model for a given classroom size.

4. Transfer

Activity 5:

1. Design a scale model of a structure. Express dimensions of the actual structure to the scale model as ratios. 2. Design Games

Resources: See Appendix Quarter III : Rational Algebraic Expressions, Linear

Equations and Inequalities in Two Variables Topic: Linear Equations and Inequalities in Two Variables

Time Frame: 25 days

Applications of learner’s understanding on first-degree equations and inequalities in one variable are demonstrated through culminating activities (e.g. Math Exhibits/Expo) that reflect meaningful and relevant problems/situations.

• Designing a scale model of your dream house

• Constructing miniature models, e.g. buildings, playground, amusement parks, ships, etc.

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Stage 1 Content Standard: The learner demonstrates understanding of key concepts of linear equations and inequalities in two variables.

Performance Standard: The learner presents solutions to problems involving linear equations and equalities in two variables using numerical, physical, and verbal mathematical models or representations

Essential Understanding(s): Linear equations show constant rate of change.

Graphs of linear equations show trends which help predict outcomes and make decisions

Essential Question(s): How are linear equations used to communicate relationships between quantities?

How does one know an outcome is favorable? How can mathematics help one find out?

The learner will know:

• coordinate plane and the terminologies associated with it.

• graph of linear equations in two variables • equation of a linear equation in two variables

• application of linear equations in two variables

• graph of a linear inequality in two variables

The learner will be able to:

• give the exact location of a point, person or object using maps, navigation devices, etc.

• investigate graphs of linear equations in two variables with deductive arguments and evidences.

• solve linear equations in two variables graphically .

• apply mathematical thinking to solve problems in disciplines such as art, music, science and business.

• formulate and solve real life problems using various representations.

Stage 2 Product or Performance Task: Solutions to problems involving linear equations and inequalities in two variables are presented using numerical, physical, and verbal mathematical models or representations.

Evidence at the level of understanding The learner should be able to demonstrate understanding by covering the six (6) facets of understanding:

Explaining how a statement is translated into mathematical symbols

Criteria Clear Coherent

Evidence at the level of performance

Assessment of presentation of solution to problems involving linear equations and inequalities in two variables based on the suggested criterion:

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Interpreting possible relationships of rates of change in a given set of data. Criteria:

Revealing Illustrative

Applying mathematical thinking and modeling to solve problems in other disciplines such as art, music, science and business. Criteria:

Practical Appropriate Accurate

Developing Perspective on the most likely outcomes that may result from trends shown in graphs

Criteria: Credible insightful

Showing Empathy on people experiencing difficulties in making decisions without the help of graphs and linear equations

Criteria: Perceptive Responsive Sensitive

Manifesting Self-Knowledge by sharing insights one may have about how math can help make reasonable judgments and predictions. Criteria:

Reflective Insightful

• Use of numerical, physical, and verbal mathematical models or representations.

Tools: Rubrics for assessment of solutions to problems

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Stage 3 Teaching/Learning Sequence: 1. Explore

Activity 1:

1. Ask the students to arrange their seats to form columns and rows. Tell those seating in the front row to number their seats as illustrated:

Column Row 1 Row 2 Row 3

2. Guide them to name the seats of their classmates as (r, c), where r stands for row and c for column.

Example: The seat where Luisa who is seated on the 3rd

row, and on the 2nd

column is named as (3, 2)

3. After the activity, pose the question:

a. Who is seated at (2, 4)? b. Are there other instances where locations of places are named?

4. Write experiences encountered if locations of persons, objects, places are not clearly defined.

2 1 3 4 5

L

Initially, begin with some interesting and challenging exploratory activities on linear equations and inequalities in two variables that will make the learner aware of what is going to happen or where the said pre-activities would lead to through meaningful and relevant real life context.

a. Start with an activity that would assess the learner’s knowledge in naming places or locations.

• Identifying classmates’ location through a seat plan

• Treasure hunting

• Map reading

b. Allow students to translate the variables used into mathematical symbols. c. Ask follow-up questions that would enhance the critical thinking skill of the learner.

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2. Firm Up

Activity 2: Treasure Hunt with Slopes

On a grid paper, mark points that would lead to the treasure.

These are the enabling activities/experiences that the learner will have to go through to validate understanding on linear equations and inequalities during the activities in the exploratory phase. These would answer some misconceptions on linear equations and inequalities in two variables that have been encountered in real life situations.

At this phase, the students should be able to perform group activities such as games, puzzles, storytelling, simulation, role-playing, etc in:

• finding/locating the coordinates of a point in the coordinate plane;

• solving for the slopes of two points (e.g. measuring the steepness of stairs/inclined objects); • finding linear equations using the forms: slope and y-intercept, slope and a point, two points

• graphing linear equations and inequalities; and

• solving real life situations.

Start here ●

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Using the definition of slope, trace the path using the slopes listed below. A correct solution will trace the route to the treasure.

1. 3 5. 2 9. 2

3

2. 4

1 6. -3 10. 3

1−

3. 5

2− 7.

3

1 11. 5

3−

4. 6 8. 7

4− 12. 6

Activity 3: Group Activity

1. Provide students with activity sheets. 2. Send groups of students to measure the length and height of the steps of the stairs of each building in their school. 3. Let other groups measure inclined objects. Mark considered different points in the object and ask students to

measure the vertical and horizontal distances of these points. 4. Represent the measurement/distances as ratios (vertical distance to the horizontal distance). Let them compare the

ratios. 5. Allow them to discuss their findings in class. 6. Introduce the concept of slope. 7. Ask learners’ experiences encountered on situations similar to:

• steps of stairs unevenly spaced.

• going up on an inclined plane with different gradients.

8. Investigate the effects caused by these phenomena. 9. Make the necessary analysis

Activity 4: Solve the problem

Loida who lives in Baguio City usually takes note of temperature readings in degrees Celsius. When she visited her mother in Chicago, she found that temperature was reported in degrees Fahrenheit. Being used to the Celsius readings, she converts

temperatures using the formula oC =

9

5(F – 32).

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a. Using a thermometer, demonstrate to the class how each scale corresponds to the other. b. Make various representations using tables or graphs. Let x be the Celsius scale and y the Fahrenheit scale. (C, F) c. Solve for the Fahrenheit reading of 40

0C.

d. Analyze the formula in converting 0F to

0C, F =

5

9C + 32. If in item b we represented x as C and y as F, then transform the

equation using x and y.

e. In the transformation recognize the role of constant numbers 5

9 and 32 in our graph. What do these numbers represent?

f. Given these two formulas, which would you consider using?

3. Deepen

Activity 5: Use a graphing calculator to discuss:

a. the behavior of the graphs of linear equations in two variables if different slopes are used b. how a linear equation can be graphed using the forms:

• slope and a point.

• the x – and - y intercepts. • two points.

• slope and y intercept.

Activities in this stage shall provide opportunity for the learner to reflect, revisit, revise and rethink about a variety of experiences. Moreover, the learner shall express his/her understanding on linear equations and inequalities in two variables and engage in multidirectional self-assessment.

At this phase, the students should be able to:

• investigate the behavior of graphs in relation to their slopes.

• write the steps in graphing linear equations and inequalities in two variables. (Imagine that you are writing the steps for someone who has never experienced this concept before.)

• check the results using graphics calculators or computers.

• analyze situations represented by linear equations and inequalities in two variables.

• write journals on the behavior of graphs of linear equations and inequalities in two variables.

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Activity 6:

In the given graphs below, identify parallel and intersecting lines.

a. Identify the y-intercepts of each line. b. Solve for the slope using two points on the line. c. Critically examine the graphs and compare the slopes of the lines. Which graphs have the same slope and which do

not have? Make deductions. d. Which pair of graphs intersects and which do not? Give the point of intersection of these pair of graphs. e. Tell the class how these graphs give meaning in real life and relate advantages and disadvantages if all things intersect

or are parallel from each other.

Activity 7: Analyze and solve the following problems:

1. Lisa baked 10 cakes in 5 hours. She worked for 2 ½ more hours and had baked a total of 15 cakes. How many cakes had she baked after 10 hours?

a. Know what is asked. b. Make a table to show the number of cakes she baked in certain number of hours.

a

b

c

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No. of hours (x) 5 No. of cakes she baked (y) 10

c. Write an equation to show the rule.

2. How much exercise is the right amount? Most health experts suggest that you should exercise to the point where your heart rate reaches a target level based on your age. Here's a rule that is suggested:

To find your target heart rate or pulse, subtract your age from 220.

a. Write an equation for the relationship. b. Find your target rate using the equation. c. What is the target heart rate for a 5-year old child?

Procedure: 1. Know what is asked.

a. Your target heart rate b. The target heart rate of a 5-year old child

2. Make a table to show the target heart rate of your group mates.

Age(x) Target heart rate(y)

3. Solve the problem. 4. State the rule or the equation involved.

4. Transfer

Applications of learner’s understanding on linear equations and inequalities in two variables are demonstrated through culminating activities that reflect meaningful and relevant problems/situations.

The students should be able to: a. construct a miniature model of the learner’s ideal community. b. design a game map to locate a person in a certain town, a ship in distress, a treasure buried in a mountain slope.

c. find the amount of fencing material needed to enclose a vegetable plot, flower garden, etc.

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Activity 7:

Design a Model Community

a. Group students into four members. b. Provide each group with an activity sheet, grid paper, pictures of houses, hospital or clinic, church, school, etc. c. Let them design their ideal community by placing the cutout pictures at the corner of each grid. d. Ask them to place their house at a strategic place. Let the location of the house be the reference point or (0, 0). e. Tell them to give the coordinates of the structures they have placed on the grid paper in relation to their house. f. Develop guide questions that would provide insights about what has been learned in the activity.

Activity 8:

On a grid paper, design a game map where students find location of:

a. a buried treasure. b. a boat in distress. c. a particular animal. d. the tallest tree.

Activity 9:

Design a competition. (Graphing Calculator Competition)

a. Form students into groups b. Construct questions about the topics discussed. Solutions to the problems should make use of the resources of a

graphing calculator. c. Other students may act as runners/scorers in the competition. d. Math teachers may be invited to act as judge. e. Provide incentive to winning groups.

Resources: See Appendix

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Quarter IV: Systems of Linear Equations and Inequalities in Two Variables

Topic: Systems of Linear Equations and Inequalities in Two Variables

Time Frame: 25 days

Stage 1 Content Standard: The learner demonstrates understanding of key concepts of systems of linear equations and inequalities in two variables.

Performance Standard: The learner creates situations/ problems in real-life involving systems of linear equations and inequalities in two variables, and solves these by applying a variety of strategies

Essential Understanding(s): Unknown numbers in certain real-life problems may be derived from solving systems of linear equations and inequalities in two variables.

Essential Question(s): How is knowledge of systems of linear equations and inequalities in two variables used to solve real life problems?

The learner will know:

• graphical solution of systems of linear equations and inequalities in two variables.

• algebraic solutions of systems of linear equations and in two variables.

• applications of systems of linear equations and inequalities in two variables in problem solving

• graph a system of linear inequalities and inequalities in two variables

The learner will be able to:

• explain thoroughly how systems of linear equations and inequalities in two variables can be solved graphically and algebraically.

• graph with accuracy the solutions of a system of linear equations and inequalities in two variables.

• apply a variety of strategies to solve problems involving systems of linear equations and inequalities in two variables.

• graph with accuracy the solution set of a system of linear equations and inequalities in two variables.

Stage 2

Product or Performance Task: Situations/ Problems created are drawn from real-life and are solved by applying a variety of strategies.

Evidence at the level of understanding The learner should be able to demonstrate understanding by covering the six (6) facets of understanding: Explaining and presenting a mathematical analysis of graphs. Criteria:

Clear Coherent

Evidence at the level of performance Assessment of situations problems created based on the following suggested criteria:

• problems are drawn from real-life;

• problems involve systems of linear equations and inequalities in two variables; and

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Justified

Interpreting the significance of the way graphs relate with each other. Criteria:

Illustrative Meaningful

Applying the appropriate solution that would produce best results. Criteria:

Appropriate Practical Useful

Developing Perspective on the different possible outcomes illustrated by graphs/equations. Criteria:

Critical Insightful

Showing Empathy on problems that may result when systems of linear equations are not properly solved and the unknown number is not correctly determined Criteria:

Sensitive Authentic

Manifesting Self-Knowledge on the impact of individual accuracy in solving problems on systems of linear equations Criteria:

Insightful Relevant

• problems are solved using a variety of strategies.

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Stage 3 Teaching/Learning Sequence: 1. Explore

Activity 1:

1. Pose a Problem:

Andrea who lives in a condominium in Makati plans to avail herself of one of the parking packages being offered by the condominium’s management

Package A: Space Rental: P3000 per year Monthly Dues: P200 per month

Package B: Space Rental: P4000 per year Monthly Dues: P100 per month

2. Analyze the situations by graphing the two packages in one coordinate plane. 3. Ask the Questions:

Which parking package should she avail? Why? When is one package cheaper?

4. Introduce the system of linear equations in two variables and discuss related lessons.

Initially, begin with some interesting and challenging exploratory activities on linear equations and inequalities in two variables that will make the learner aware of what is going to happen or where the said pre-activities would lead to through meaningful and relevant real life context.

a. Start with an activity that would assess the learner’s knowledge on linear equations in two variables.

• Problem – posing activity

• Outdoor activity (e.g. measuring the horizontal and vertical distances of the steps of stairways, inclined plane, etc.)

• Games, puzzles, storytelling, role-playing, simulation. etc. • Video/powerpoint presentations that would show representations of linear equations in two variables

b. Ask follow-up questions that would enhance the critical thinking skill of the learner. c. Pose questions that would link linear equations in two variables and systems of linear equations in two

variables.

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2. Firm Up

Activity 2:

Divide the class into three groups. Each group will be assigned to graph a system of linear equations using any method of their choice and to answer the following guide questions. Two representatives from each group will then be asked to present their work to the class.

Sketch the graph of the given system of equations. Identify the slopes and y-intercepts of the two lines in the system and then answer the questions that follow.

Group 1:

=−

=+

6

10

yx

yx Group 2:

=−

−=−

3

1

yx

yx Group 3:

=+

=+

933

3

yx

yx

Guide Questions:

1. What is the slope of the first line in your system? second line? 2. What is the y-intercept of the first line in your system? second line? 3. What do you notice about the slopes and y-intercepts of the linear equations in your system? 4. Describe the graph that you sketched. What kind of lines is formed?

These are the enabling activities/experiences that the learner will have to go through to validate understanding on systems of linear equations and inequalities in two variables during the activities in the exploratory phase. These would answer some misconceptions on systems of linear equations and inequalities in two variables that have been encountered in real life situations.

At this phase, the students should be able to:

• graph solution of systems of linear equations in two variables, e.g. graph showing the gains and losses of a business firm, income and expenses of a middle income family, etc.

• solve for the algebraic solutions of systems of linear equations in two variables. • apply systems of linear equations in two variables in problem solving. • graph a system of linear inequalities in two variables.

• interpret graphs of systems of linear equations and inequalities through storytelling, simulation, flowchart, etc.

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After each group presentation, discuss the different kinds of systems of linear equations. Let the students identify the characteristics of each system based on their previous activity.

Use the following questions as guide.

What can you say about the slopes and the y-intercepts of:

1. consistent system of linear equations in two variables? 2. inconsistent system of linear equations in two variables? 3. dependent system of linear equations in two variables?

3. Deepen

Activity 3:

Technology Integration:

Teach the students how to use the graphics calculator to investigate the graph of a given system of linear equations.

Activities in this stage shall provide opportunity for the learner to reflect, revisit, revise and rethink about a variety of experiences. Moreover, the learner shall express his/her understanding on systems of linear equations and inequalities in two variables and engage in multidirectional self-assessment.

The students should be able to:

• Investigate the effect of the slopes on the graph of a linear equation in two variables and giving its significance

• Explore graphs of inequalities using graphics calculator.

• Investigate and analyzing critical points on the graphs of systems of linear inequalities. • Write reports on the result of the investigation.

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-3

-2

-1

0

1

2

3

4

5

y

-4 -2 2 4x

-4

-2

0

2

4

y

-4 -2 2 4 6 8 10x

-4

-2

0

2

4

y

-6 -4 -2 2 4x

-4

-2

0

2

4

y

-4 -2 2 4x

1. Identify the slopes and y-intercepts of the lines in each of the following systems and then identify what kind of system it is.

a.

=+

=+

1233

4

yx

yx b.

+−=

+−=

1

32

xy

yx

c. ( )

−=−

=−

25

31

1053

xy

yx

d.

+=

−=

12

32

xy

xy

2. Analyze the graphs. What kind of system of linear equations is represented by each graph?

a. b.

c. d.

y

x

y

x

y y

x

x

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4. Transfer

Activity 4:

Allow students to design competitions, puzzles, games, etc. Resources: See Appendix

Applications of learner’s understanding on linear equations and inequalities in two variables are demonstrated through culminating activities that reflect meaningful and relevant problems/situations.

• Applying the best decisions out of a given situation (e.g. choosing between membership packages offered by two video rentals/cell phone companies, best time to plant crops that would produce more harvest, etc.).

• Designing games and puzzles which would use systems of linear equations.

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Appendix Resources : ICT Tools

• http://www.deped.gov.ph/iSchool Web Board/Math Web Board

• http://www.deped.gov.ph/iSchool Web Board/skoool.ph • http://www.deped.gov.ph/e-turo

• http://www.deped.gov.ph/BSE/iDEP • http://www.pjoedu.wordpress/Philippine Studies/FREE TEXTBOOKS

• http://www.teacherplanet.com

• http://www.pil.ph/innovative teachers leadership award • http://www.alcob.com/ICT Model School Network

• http://www.APEC Cyber Academy.com • http://www.globalclassroom.net

• http://www.think.com

• http://www.rubistar.com • Overhead projector/transparencies

• Computer/PC tablet/Interactive Whiteboard • Graphing calculator

• CONSTEL CD/DVD materials

• CAI materials in CD/DVD format • Intel Teach to the Future/ASEAN SchoolNet/FIT-ED/SMART School/Innovative Teachers Leadership

Award/sKwela/iSchool/Learn.ph/eskwela ng bayan modules in PowerPoint format

• Authoring-enabled math storytelling enrichment modules ( e.g. Fibo the Frog Mathemajess’yan, etc.) • Video clips/tapes

• Interactive digital games/puzzles ( e.g. eDamath, 3D damath gaming, Cartesian coordinate system, etc.)

• E-TV episodes (Knowledge Channel, National Geographic Channel, Discovery Channel, BBC, etc.) • Online/offline open-source teaching/learning materials

• Student/teacher-made PowerPoint/spreadsheet/word instructional materials with Hyperlinks • Student/teacher-made webcam/digicam math storytelling materials

• Mathematical simulations

• Interactive flowchart/concept map/tree diagram/picture problem situation/secret message decoder • Dgital mathematical cartoon strips/humor/jokes/poster with hyperlinks

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• eBooks/eTeachers manual with no hyperlinks • Digital books/teaching guides with hyperlinks

Manipulatives

• Games and puzzles (e.g. damath, chess-math, sungkamath, sudoku, cross-number puzzle, etc.) • Geoboard/rubber bands/strings

• Algebra tiles • Cuisenaire rod

• Dice

• Domino/triangular domino • Playing cards

• Mathemagic biscuit crackers (e.g. opposite sense in integers, etc.)

Print Materials

• Worksheets

• Workbooks • Textbooks/supplementary reference materials/teachers manual

• Consumer education/global warming and climate change integration lesson exemplars • Remedial/enrichment modules (e.g. EASE modules, distance learning/self-learning package, etc.)

• Enrichment math storytelling modules with indigenous cartoon characters (e.g. Max the Matrix & Co., etc.)

• Handouts/Activity Sheets/Cards • Mathematical post card / mathematical cartoon strips/humors/quotes/jokes/jingle/slogan/themes/tarpaulin

Supplies and Materials

• Papers (graphing, bond, pad, manila, colored) • School Supplies (Ruler/straightedge, Colored cartolina , Illustration board , Pairs of scissors, Masking tapes

Pentel pen)

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Rubrics

1. Scoring Guide for Problem Solving

3. Scoring Guide for Journal Writing

Points Description

5 Writes a clearly stated main idea, topic and presents supporting details in a logical order. The journal is written with correct use of conventions (grammar, punctuation, capitalization, and spelling)

4 Writes clearly stated main idea, topic and presents supporting details in a logical order. The details may not be as complete as it could be. The journal is written with generally correct use of conventions.

3 Writes a clearly stated main idea, topic but presents some unrelated details. There are few errors in the use of conventions.

2 Writes a main idea, topic but not clearly stated. Details may not be presented in a logical order, or some of the information may be inaccurate. The journal may include some errors in the use of conventions.

1 No accurate understanding of topic/subject.

Points Criteria 3 Understood the problem, performed the correct

operation/s, and got the correct answer. 2 Understood the problem, performed the correct

operation/s, and got an incorrect answer

1 Attempted to solve the problem, performed an incorrect operation/s and got an incorrect answer.

Got the correct answer, but no solutions/wrong solution.

0 No attempt

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4. Scoring Guide for Graphing:

Sample Problem: (Note the correct distribution of rubric points.)

Graph the equation 12 += xy .

Solution: m = 2 ; rise of 2 units and run of 1 unit. 1 point b = 1

Y

12 += xy

2 points X

Points Criteria 3 The graph is correct and Properly labeled 2 Graph is correct, but not labeled properly 1 Graph is incorrect

0 No attempt