A unit plan of Pre-Calculus 11

EDCP 342A Unit planning: Rationale and overview for planning a 3 to 4 week unit of work in secondary school mathematics

Your name: Leo Hui
School, grade & course: Burnaby South Secondary School, Grade 11 Pre-Calculus

Topic of unit (NOTE: This should be a unit you will actually be teaching on practicum!):

Systems of Equations and Inequalities

Preplanning questions:

(1) Why do we teach this unit to secondary school students? Research and talk about the following: Why is this topic included in the curriculum? Why is it important that students learn it? What learning do you hope they will take with them from this? What is intrinsically interesting, useful, beautiful about this topic? (150 words) This topic is included in the curriculum because it is the foundation of many mathematical concepts and examples. The advanced topics like trigonometry, differentiation and integration are built upon the knowledge of setting and solving mathematical equations. For example, if students do not have the prior knowledge of systems of equations, it is difficult for them to understand the equations of tangent lines in trigonometry. It is important for students to learn it because they need to have the knowledge of systems of equations to understand the concepts and solves problems in subjects like physics and chemistry, and many real-world problems can be described in equations and then solved using mathematical methods. Students can also transform their problems to mathematical equations and solve them. Also, this topic is intrinsically interesting, useful and beautiful because students can solve equations graphically (i.e., using intersections of lines and curves) and use equations or inequalities to create interesting shapes or patterns, and this can raise students’ interest to learn this topic.

(2) A mathematics project connected to this unit: Plan and describe a student mathematics project that will form part of this unit. Describe the topic, aims, process and timing, and what the students will be asked to produce, and how you will assess the project. (250 words) A student mathematics project is planned to serve as a demonstration of how to apply systems of equations in daily life. The topic is called “Start your own business”. The purpose of this project is to ask students to budget their own businesses with the use of linear or quadratic equations to determine the break-even point. The schedule of the project is: Time Stage Details 1 week Planning Students are asked to group into teams of 4 or 5 people. They need to decide what businesses they want to do. 1 week Information session The teacher provides information about different types of costs (e.g., fixed and variable costs) and sources of income of a business. Students can ask the teacher and inquire about the businesses they choose. 1 week Research Students do research about their chosen businesses and collect the information (e.g., material cost, manufacturing cost, transportation cost, rental cost if they need a space to sell their products and the current price ranges of their products) for estimating the cost and income of their businesses. 1 week Analysis After obtaining the information, students analyze the data and develop a set of equations to show the relationship of the cost and the price with the quantity of the product. Then they need to plot the equations to determine the break-even point. 1 week Presentation Students need to present their projects, explaining the nature and the budget of their businesses with the use of posters or PowerPoint. They can also show the products/services of their businesses. The project will be assessed by a rubric related to content, accuracy, creativity and communication.

(3) Assessment and evaluation: How will you build a fair and well-rounded assessment and evaluation plan for this unit? Include formative and summative, informal/ observational and more formal assessment modes. (100 words)

To evaluate what and how students learn from this unit, I will use 2 types of assessment: formative and summative. For formative assessment, in-class worksheets and take-home assignments from the textbook are the basic tools to check the learning performance of students. I will also include some activities like group discussions and Kahoot in lessons to observe how students understand the basic concepts of linear and quadratic equations, e.g., x-intercepts, y-intercepts, real roots, or no roots. For summative assessment, I will use 2 unit tests to evaluate the overall student learning of equations and inequalities respectively. A group project is also designed to ask students to apply systems of equations to solve problems in their daily life, and then students are required to present the projects during a lesson. Their performance will be assessed by a rubric related to content, accuracy, creativity and communication.   

Elements of your unit plan:

a)  Give a numbered list of the topics of the 10-12 lessons in this unit in the order you would teach them.

Lesson	Topic
1	Review of linear and quadratic equations
2	Plotting of linear and quadratic equations
3	Solving systems of equations graphically
4	Solving systems of equations algebraically
5	Solutions of linear-quadratic and quadratic-quadratic equations
6	Application of systems of equations in the real world
7	Unit test for the system of equations
8	Linear inequalities in two variables
9	Quadratic inequalities in one variable
10	Quadratic inequalities in two variables
(11)	Application of linear and quadratic inequalities in the real world
(12)	Unit test for the system of inequalities

Lesson Title:       Solving systems of equations graphically (Lesson 3)

Created by:         Leo Hui                                                     

Subject:     Pre-Calculus 11

Grade: 11  Block: 3

Stage 1 – Desired Results
Big Idea(s): what students will understand (at a conceptual level, see connections to and between ideas, goes beyond the classroom learning) - Functions allows us to model contextualized situations, including financial ones. Essential Question(s): - How do we plot linear and quadratic equations? - How can we solve equations graphically?
Curricular Competencies:  what students will do (activities to deepen understanding / product) - visualize to explore and illustrate mathematical concepts and relationships		Content Competencies:  what students will know (basic knowledge, definitions, theories, laws) (this is often right/wrong, yes/no) - how to solve graphically problems that involve systems of linear-quadratic and quadratic-quadratic equations in two variables
Stage 2-Learning Plan
Potential Barriers to Success (Might include: engagement, motivation, organization, language ability, exceptionalities, reading level etc.) - not engaged in learning		What will you do? (differentiation/adaptations) (not enough to just list obstacles w/o thinking of how to address them) - introduce an online software, GeoGebra, for students to try - integrate an in-class activity/game into the lesson to motivate students to learn
Resources / Materials Required / Technology - a notebook for showing an online software (GeoGebra), a projector, iPads for students, vertical erasable white boards and markers
Stage 3 – Assessment Evidence
- in-class worksheets about linear and quadratic equations - an in-class activity with the use of vertical erasable boards to see how students understand the solving of linear-quadratic equations
Stage 4 – Teaching Plan
Time:	Teacher Does:		Students Do:
10 mins	- Review the previous lesson about plotting linear and quadratic equations using Kahoot - Introduce an online software, GeoGebra, that will be used later in the lesson to engage students in learning		- Play Kahoot about questions of x-intercepts, y-intercepts, slopes and roots.
15 mins	- Explain how to solve linear-linear equations graphically with examples - Show how to use GeoGebra to solve linear-linear equations		- Take notes of how to solve linear-linear equation system - Try GeoGebra
15 mins	- Explain how to solve linear-quadratic equations graphically with examples - Show how to use GeoGebra to solve linear-quadratic equations		- Take notes of how to solve linear-quadratic equation system - Try GeoGebra
10 mins	- Give an in-class worksheet and then check the answers with students after they finish.		- Do an in-class worksheet about solving linear and quadratic equation systems graphically
15 mins	- Ask students to group in teams, give an activity about drawing 3 different linear-quadratic equation systems that contain no solutions, 1 solution and 2 solutions respectively on vertical erasable white boards and evaluate the students' learning by checking their answers afterward.		- Group themselves into teams, draw 3 linear-quadratic equation systems required by the teacher and then present the 3 systems to the class.
10 mins	- Summarize what they have learnt in the lesson - Inform students what they will learn in the next lesson
Homework / Teacher Preparation for next class - Assignment from the textbook

Lesson Title:       Quadratic inequalities in one variable (Lesson 9)

Created by:         Leo Hui                                                     

Subject:     Pre-Calculus 11

Grade: 11  Block: 3

Stage 1 – Desired Results
Big Idea(s): what students will understand (at a conceptual level, see connections to and between ideas, goes beyond the classroom learning) - Functions allows us to model contextualized situations, including financial ones. Essential Question(s): - How do we solve quadratic inequalities in one variable?
Curricular Competencies:  what students will do (activities to deepen understanding / product) - visualize to explore and illustrate mathematical concepts and relationships		Content Competencies:  what students will know (basic knowledge, definitions, theories, laws) (this is often right/wrong, yes/no) - how to solve problems involving quadratic inequalities in one variable
Stage 2-Learning Plan
Potential Barriers to Success (Might include: engagement, motivation, organization, language ability, exceptionalities, reading level etc.) - not engaged in learning		What will you do? (differentiation/adaptations) (not enough to just list obstacles w/o thinking of how to address them) - integrate a current issue (e.g., environmental justice) into the lesson to motivate students to learn
Resources / Materials Required / Technology - a notebook, a projector, videos about environmental justice (https://www.youtube.com/watch?v=dREtXUij6_c, https://www.youtube.com/watch?v=30xLg2HHg8Q)
Stage 3 – Assessment Evidence
Formative (before/during) - in-class worksheets about quadratic inequalities in one variable
Stage 4 – Teaching Plan
Time:	Teacher Does:		Students Do:
10 mins	- Review the lesson about finding roots of quadratic equations		- Answer the questions given by the teacher
15 mins	- Give a lecture about how to solve quadratic inequalities using 3 methods (graphing, test points and case analysis) with examples		- Take notes of how to solve quadratic inequalities using the 3 methods
15 mins	- Play a video about environmental justice and then introduce one of the causes of environmental injustice is the transportation of wastes to the low-income regions or countries - ask students to think about the ways of treating wastes		- Brainstorm different ways of treating wastes and present their ideas on poster papers.
10 mins	- Introduce a new technique called gasification which converts solid wastes to fuels and show a quadratic inequality to estimate the cost of this waste treatment will be $C/kg or less in t years from the present. - Use this example to display the application of quadratic inequalities to help people solve environmental problems		- Take notes of this example
15 mins	- Give an in-class worksheet and then check the answers with students after they finish.		- Do an in-class worksheet about quadratic inequalities
10 mins	- Summarize what they have learnt in the lesson - Inform students what they will learn in the next lesson
Homework / Teacher Preparation for next class - Assignment from the textbook

Lesson Title: Application of linear and quadratic inequalities in the real world (Lesson 11)

Created by:  Leo Hui                                                  

Subject:     Pre-Calculus 11

Grade: 11  Block: 3

Stage 1 – Desired Results
Big Idea(s): what students will understand (at a conceptual level, see connections to and between ideas, goes beyond the classroom learning) - Functions allows us to model contextualized situations, including financial ones. Essential Question(s): - How do we apply linear and quadratic inequalities in daily life?
Curricular Competencies:  what students will do (activities to deepen understanding / product) - visualize to explore and illustrate mathematical concepts and relationships		Content Competencies:  what students will know (basic knowledge, definitions, theories, laws) (this is often right/wrong, yes/no) - how to solve problems that involve linear and quadratic inequalities in two variables - the application of inequalities in daily life
Stage 2-Learning Plan
Potential Barriers to Success (Might include: engagement, motivation, organization, language ability, exceptionalities, reading level etc.) - not engaged in learning		What will you do? (differentiation/adaptations) (not enough to just list obstacles w/o thinking of how to address them) - integrate an in-class activity/game into the lesson to motivate students to learn
Resources / Materials Required / Technology - a notebook, a projector, iPads for students, poster papers and markers
Stage 3 – Assessment Evidence
Formative (before/during) - in-class worksheets about linear and quadratic inequalities - an in-class drawing activity to see how students can apply linear inequalities to create areas of different shapes or patterns (i.e., art)
Stage 4 – Teaching Plan
Time:	Teacher Does:		Students Do:
5 mins	- Review the previous lesson about quadratic inequalities in 2 variables - Introduce a drawing activity that students will do in the lesson to engage students in learning		- Play Kahoot of questions about 3 methods of solving quadratic inequalities
5 mins	- Briefly revisit the solving and plotting of linear inequalities with examples		- Do examples together with the teacher
10 mins	- Put the plotting of linear and quadratic inequalities together and explain with examples and the use of GeoGebra		- Do examples together with the teacher - Try GeoGebra
10 mins	- Show daily examples of using linear and quadratic inequalities		- Take notes about the application of linear and quadratic inequalities
15 mins	- Give an in-class worksheet and then check the answers with students after they finish.		- Do an in-class worksheet about linear and quadratic inequalities
20 mins	- Ask students to group in teams, using linear and quadratic inequalities to create areas of different shapes or patterns they want (e.g., using 2 vertical linear inequalities and 2 horizontal linear inequalities to create an area of a square or a rectangle) on poster papers and evaluate the students' learning by checking their answers afterward.		- Group themselves into teams, design areas of different shapes using linear and quadratic inequalities on poster papers and then present their shapes or patterns to the class
10 mins	- Summarize what they have learnt in the lesson - Inform students that they will have a unit test in the next lesson - Talk about the scope of the test
Homework / Teacher Preparation for next class - Assignment from the textbook