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About the course

This course introduces students to the manufacturing industry by giving them an opportunity to design and fabricate products using a variety of processes, tools, and equipment. Students will learn about technical drawing, properties and preparation of materials, and manufacturing techniques. Student projects may include a robotic challenge, a design challenge, or a fabrication project involving processes such as machining, welding, vacuum forming, or injection moulding. Students will develop an awareness of environmental and societal issues related to manufacturing, and will learn about secondary and postsecondary pathways leading to careers in the industry.

Manufacturing Technology 10

Course Credit


Course Price

$ 550.00

Course Developer

My Learning Oasis

Prerequisite(s) (Text)


Course Code

Department Head & Contact Information


Course Type


Grade Level

Grade 10

Course Development Date

June 10th, 2021

Course Outline

Manufacturing Technology Fundamentals

This unit introduces the students to the differences between the primary (iron and steel, lumber, paper, petroleum),and secondary (automotive, aerospace, chemicals, plastics, textiles) manufacturing industries. Students will explore the key areas of manufacturing, namely, design of product, production planning, fabrication of product, and quality control of product. They will explore various production processes, namely, custom, assembly line, flexible, mass production, and hybrid processes. They will explore the impact that manufacturing has on people’s lives. They will identify and describe the steps in the designing process of a product and explore the challenges and constraints. Students will identify the technological concepts that may be employed in the design and the environmental impact that it may have. They will explore ways to communicate their design, including software presentation, mock-up models, technical drawings etc.

Expected Hours of Instructions: 30 Hours

Technological Design Skills

In this unit students are introduced to more advanced techniques to present their technical specifications that are necessary to present a proper technical drawing of the concept and product. They are introduced to the more specific design process, namely, concept, free-hand sketch and computer graphics. They will look at the different materials available for their possible designs and evaluate their strength and integrity. After establishing the material, students will evaluate appropriate manufacturing simulation softwares. Where possible, to save money, they will run simulations of the productions. Students will evaluate the effectiveness of this step, cost and otherwise. They will proceed to build a prototype. If the product fails at the computer simulation level, then they will look at ways to review the design and material. Where possible, they will learn how to use the necessary tools to make the mock-up model a reality. They will identify the tools necessary to build this mock-up model and the tools to build the final project. Students will then be introduced to the testing and evaluation process. After these processes, students will reevaluate the product to see if improvements can be made. In this unit students will be exposed to a variety of tools used in the manufacturing of various products. They will explore proper maintenance and storage techniques for the tools.

Expected Hours of Instructions: 42 Hours

Technology, The Environment, And Society

In this unit students will examine the impact to society and the environment that their product may have. They will evaluate the product/process to mitigate any negative effects that it may have on society and the environment. Students will explore how manufacturing can reduce or eliminate the production of toxic gases and CO2. They will explore the ethical issues surrounding manufacturing and the cost to benefit ratio with regards to manufacturing.

Expected Hours of Instructions: 18 Hours

Professional Practice And Career Opportunities

In this unit students will look at the health and safety issues that such a product may pose. For instance, is it overheated when charging? Does it have mechanical integrity for the load it is designed for? They will look at the training and education that a career in this field will entail. Students will also look at the necessary qualifications in this area to pursue higher studies.

Expected Hours of Instructions: 9 Hours

Project and Final Exam

The project (different from other projects) part of the final exam is 15% of the course and will be in the form of a group presentation (where possible). The other part of the final exam will be written for 15% of the course. It is the teacher’s prerogative to make the final exam 30% of the course.

Expected Hours of Instructions: 9 hours (presentation) 2 hours (written exam)

Total 110 hours


The course material (class notes and necessary handouts) will be provided by the teacher.

The students will be required to have:
● Access to a library or the Internet to do research
● Access to the internet as well as electronic devices for note taking and communication for those taking the class online

Overall Curriculum Expectations


A1 demonstrate an understanding of factors and relationships that affect technological design and the design process;
A2 describe appropriate strategies, techniques, and tools for researching, organizing, planning, and managing design projects and related activities, with an emphasis on financial, human, and material resources;
A3 demonstrate an understanding of drafting standards, conventions, and guidelines for various types of drawings used to represent designs;
A4 demonstrate an understanding of a variety of tools, materials, equipment, and processes used to build, test, and evaluate models and prototypes;
A5 use appropriate terminology and communication methods to document, report, and present progress and results.


B1 use appropriate strategies and tools to research and manage design projects and related activities;
B2 apply appropriate methods for generating and graphically representing design ideas and solutions;
B3 create and test models and/or prototypes, using a variety of techniques, tools, and materials;
B4 use a variety of formats and tools to create and present reports summarizing the design process and to reflect on decisions made during the process.

C1 demonstrate an understanding of environmentally responsible design practices, and apply them in the technological design process and related activities;
C2 describe the relationship between society and technological development.

D1 describe and apply health, safety, and environmental practices related to technological design;
D2 identify career opportunities in fields related to technological design, and describe the training and education required for these careers.

Special Accommodations

Only Some students are able, with accommodations, to be part of a regular course curriculum and to demonstrate independent learning. These accommodations allow access to the course without any dilution of the knowledge and skills the student is expected to demonstrate. These required accommodations to facilitate the student’s learning will be identified in his or her IEP (see IEP Standards, 2000, page 11*). It is likely that IEP for many or all courses will reflect the same accommodations. The instructions and accommodations are geared to meet the diverse needs of learners.

The three types of accommodations that are going to be used are:

i) Instructional accommodations - changes in teaching/learning strategies facilitated by different styles of presentation; methods of organization; the use of technology and multimedia.
ii) Environmental accommodations - Certain classroom settings and preferential seating may benefit these students.
iii) Assessment: assessment procedures that enable the student to demonstrate his or her learning, such as Multiple Intelligence Theory, giving more time to complete tasks (see page 29 of the IEP Resource Guide, 2004, for more examples).

For students who require accommodations for only the mathematics courses, the assessment and evaluation of their achievement will be based on the appropriate course curriculum expectations and the achievement levels outlined in this document. The IEP box on the students’ Provincial Report Cards will not be checked, and no information on the provision of accommodations will be included.

* Taken from: Ministry of Education, Ontario. Extracted from The Ontario Curriculum, Grades 11 and 12: Technological Education, 2009; Pg 34-37 Date of extraction: Sunday, March 14, 2021

Program Considerations For English Language Learners

Students from a variety of cultural and linguistic backgrounds. For many of these students, English is not their spoken language. They may be coming from highly sophisticated educational systems, while others may have come from regions where access to formal schooling was limited. These students offer a rich addition to the classroom experience by way of their background knowledge and experience. All teachers will assist with their English- language development. In mathematics the teachers will include appropriate adaptations and strategies in their instructions and assessments to facilitate the success of the English language learners in their classrooms. Some of these strategies and adaptations are: modification of some or all of the course expectations so that they are challenging but attainable for the learner at his or her present level of English proficiency, given the necessary support from the teacher.

Teaching/Learning Strategy

The key learning strategy at My Learning Oasis Elite Private School is Constructivism. This format facilitates learning by many techniques, most or all of which will be adopted in the classroom. The most dominant of these is group learning. The facilitator places students of different backgrounds in the same group so that they can feed off each other. Each may bring to the table a different reasoning strategy to facilitate problem-solving. Now, each student becomes a learner and a teacher at the same time, as he/she has to communicate his/her solution. This builds the students' knowledge base and by default, increases their confidence to speak in a crowd, albeit a small group at the beginning. The famous educationalist, Vygotsky, proved that by placing students in a group they function at the upper level of their zone of proximal development, each one scaffolding the other.

This strategy is further enhanced by the teacher asking leading questions as opposed to giving the answer outright, then allowing for group discussion. The students are encouraged to make connections between what they have learnt and their life experiences, then share with the group. The effect of this strategy is intrinsic motivation and learning. Each student develops an expanded appreciation of the topic at hand by seeing how it applies in different settings around the world by way of listening to their group members.

This Constructivist approach will be further accentuated by implementing “fish-bowling”. There are many ways to implement this technique. The one that will mostly be used will be by dividing up the larger problem (technical, mathematics, science, or otherwise) into smaller bits and have each student thoughtfully master one part. That student then teaches the group and facilitates a discussion reflection about the strategy (computational or otherwise) used in the solution. Each student in turn does this.

The above techniques enable students to reflect on the material learnt, make real life connections, and develop problem solving skills. One important by-product of the technique of Constructivism is that each student develops an appreciation of each other’s culture. This cultivates healthy people’s skill, which is not only important for the professional world but for life itself.

Constructivism lends itself well to students whose first language is not the language of instruction and who is new to the class. While other strategies will be used for students having difficulty with the English Language, this technique will definitely be used to enhance their English skill.

Assessment And Evaluation

At My Learning Oasis, course facilitators do not wait for a quiz or exam to determine how well a student is doing. Here, evaluation is an on-going exercise. The pedagogical techniques (refer to Teaching and Learning Strategies) used at My learning Oasis are perhaps the best techniques suited for on-going assessment, hence, they being an integral part of our delivery methodologies.

Concrete assessments are made through projects and assignments. However, the evaluation is based on “our flavor” of the Mastery Teaching technique. This ensures that the emphasis is on the quality of learning and NOT grading. Students' projects and homework will continuously be evaluated and re-evaluated with appropriate guidance to meet the school’s and Ministry’s expectations. At My Learning Oasis, we will work with the students until the projects meet a minimum of a B-grade, unless in extreme circumstances where the willful negligence of the students force lower grades. While this is a lot more taxing on the facilitator, it does not matter because My Learning Oasis is a Learner-centered institution NOT a Grade-Centered nor a Teacher-Centered institution.

Four categories of knowledge and skills are outlined in the achievement chart - knowledge and understanding, thinking, communication, and application. Student’s work is assessed and evaluated with respect to these categories, and that achievement of particular expectations is considered within the appropriate categories. A final grade will then be recorded for this course and if that grade is 50% or higher, a credit is granted to the student and recorded for this course. The final grade for this course will be determined as follows:

● For material evaluated throughout the course, seventy percent of the grade will be assigned. This portion of the grade should reflect the student's consistency in his/her level of achievement throughout the course, although special consideration should be given to more recent evidence of achievement.
● Thirty percent of the grade will be based on a final evaluation, which is administered towards the end of the course.

Final Exam: 30%
Grading for all course work, projects, presentation, participation, interim quizzes and exam: 70%

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