PHY10 Syllabus

MAPÚA INSTITUTE OF TECHNOLOGY School of Basic Studies

Mapúa • • •

VISION shall be an international center of excellence in technology education by: providing instructions that are current in content and state-of-the art in delivery; engaging in cutting-edge research; and responding to the big local and global technological challenges of the times

MISSION a) The mission of Mapúa Institute of Technology is to disseminate, generate, preserve and apply scientific, engineering, architectural and IT knowledge. b) The Institute shall, using the most effective means, provide its students with professional and advanced scientific and engineering, architectural and information technology education through rigorous and upto-date academic programs with ample opportunities for the exercise of creativity and the experience of discovery. c) It shall implement curricula that, while being steeped in technologies, shall also be rich in the humanities, languages and social sciences that will inculcate ethics. d) The Institute shall advance and preserve knowledge by undertaking research and reporting on the results of such inquiries. e) The Institute, singly or in collaboration with others, shall bring to bear the world's vast store of knowledge in science, engineering and other realms on the problems of the industry and the community in order to make the Philippines and the world a better place.

MISSION

PROGRAM EDUCATIONAL OBJECTIVES 1. To provide students with a solid foundation in mathematics, basic sciences, physics, and general chemistry and their application to engineering, architecture, and other related disciplines; 2. To complement the technical training of the students with proficiency in oral and written communications; 3. To instill in the students human values and cultural refinement through the humanities and social sciences; and

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4. To inculcate a high ethical standard in the students through its integration in the learning activities.

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COURSE SYLLABUS 1. Course Code

: PHY 10

2. Course Title

: GE PHYSICS 1 – LECTURE

3. Pre-requisite

: MATH 105

4. Co-requisite

: none

5. Credit/ Class Schedule 6. Course Description

: 2 units/ 3 lecture hours a week : This course covers review of calculus, composition and resolution of vectors, first conditions of equilibrium, friction, kinematics, Newton’s laws of motion, gravitation, and circular motion.

7. Program Outcomes and Relationship to Program Educational Objectives Course Title:

GE PHYSICS 1-LECTURE

Date Effective:

1st Qtr SY2008-2009

Date Revised:

Prepared by:

Approved by: Page

July 09, 2008

Fe. M. Novida

Dante J. Sauquillo

of

1 6

Program Educational Objectives 1 2 3 4

Program Outcomes An ability to apply knowledge of mathematics, science, and engineering An ability to design and conduct experiments, as well as (b) to analyze and interpret data An ability to design a system, component, or process to (c) meet desired needs

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(d) An ability to function on multi-disciplinary teams An ability to identify, formulate, and solve engineering problems An understanding of professional and ethical responsibility An ability to communicate effectively The broad education necessary to understand the impact of engineering solutions in a global and societal context A recognition of the need for, and an ability to engage in life-long learning

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(j) A knowledge of contemporary issues An ability to use the techniques, skills, and modern engineering tools necessary for engineering practice.

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8. Course Objectives and Relationship to Program Outcomes: Course Objectives The students should be able to: 1. show the students the relationship of physics concepts with other natural sciences 2. show the social significance and implications of physics to prepare themselves to appreciate the relevance of physics to everyday life.

9. Course Coverage

WEEK

1

D A Y

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EVALUATION TOOLS

METHODOLOGY AND STRATEGY

Orientation Course Policies and Guidelines, Nature and Scope of Course

Discussion of Course Requirements and Grading System

Introduction to the Course and Review of Basic Calculus

Lecture/Discussion

GE PHYSICS 1-LECTURE

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TOPIC

Course Title:

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Date Effective:

1st Qtr SY2008-2009

Date Revised:

Prepared by:

Approved by: Page

July 09, 2008

Fe. M. Novida

Dante J. Sauquillo

of

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2

1

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3

1

Vectors and Scalars Vector Addition and Subtraction: Graphical Method

Lecture/Discussion

Vectors and Scalars Vector Addition and Subtraction: Analytical Method

Lecture/Discussion

Vectors and Scalars Unit Vector

Lecture/Discussion

Seatwork (10 pts) Homework (10 pts)

Solving Sample Problems

Boardwork (10 pts)

Solving Sample Problems

Homework (10 pts)

Solving Sample Problems Vectors and Scalars Cross Product and Dot Product

Lecture/Discussion

1

Quiz No.1

Written Examination

Long Exam (100 pts)

Lecture/Discussion

2

Kinematics Motion Along A Straight Line Speed and Velocity, Accelerated Motion and Equations of Kinematics

Homework (10 pts)

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4

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7

Seatwork (10 pts)

Solving Sample Problems

Solving Sample Problems

Demonstration Lecture/Discussion Solving Sample Problems

Homework (10 pts)

Demonstration Lecture/Discussion Solving Sample Problems Practical Applications

Seatwork (10 pts)

Quiz No 2

Written Examination

Long Exam (100 pts)

First Condition of Equilibrium

Seatwork (10 pts)

Kinds of Forces

Lecture/Discussion Solving Sample Problems Practical Applications

1

Newton’s Laws of Motion

Lecture/Discussion Solving Sample Problems

Homework (10 pts)

2

Friction

Lecture/Discussion

Homework

1

Freely Falling Bodies

2

Motion of a Projectile

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2

Course Title:

GE PHYSICS 1-LECTURE

Date Effective:

1st Qtr SY2008-2009

Date Revised:

Prepared by:

Approved by: Page

July 09, 2008

Fe. M. Novida

Dante J. Sauquillo

of

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8

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Characteristics of Friction

Solving Sample Problems

(10 pts)

1

Quiz No. 3

Written Examination

Long Exam (100 pts)

2

Horizontal (UCM)

Circular

Motion Lecture/Discussion Solving Sample Problems

Seatwork (10 pts)

Demonstration Lecture/Discussion Solving Sample Problems Practical Applications Physics in an Amusement Park

1

Vertical Circular Motion (NUCM)

Seatwork (10 pts)

2

Universal Law of Gravitation

Lecture/Discussion Solving Sample Problems

Seatwork (10 pts) Homework (10 pts)

1

Quiz No. 4

Written Examination

Long Exam (100 pts)

2

Completion of Requirements/Computation of Grades

Final Examination

10. Course Outcomes and Relationship to Course Objectives/ Program Outcomes Course Objectives 1 2

Course Outcomes A student completing this course should at the minimum be able to:


differentiate a vector from a







scalar determine the resultant of concurrent vectors solve problems in kinematics compute the time of fall, distance traveled, and velocity of a falling body analyze the motion of a projectile solve problems in translational equilibrium state and explain Newton’s First Law of Motion

Course Title:

GE PHYSICS 1-LECTURE

Date Effective:

1st Qtr SY2008-2009

Program Outcomes a

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Date Revised:

Prepared by:

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July 09, 2008

Fe. M. Novida

Dante J. Sauquillo

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state and explain Newton’s Third











Law of Motion enumerate the characteristics of friction compute the static or kinetic friction force between two given surfaces state and explain Newton’s Second Law of Motion solve problems involving Newton’s Second Law of Motion determine the gravitational force between different masses. compute the acceleration due to gravity at different altitudes define period and frequency of revolution enumerate the factors affecting circular motion solve problems involving centripetal force solve problems in vertical circular motion

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11. Contribution of Course to Meeting the Professional Component: Engineering topics – 30% General education component – 70 %

12.

Textbook

: Young, Hugh D. and Freedman, Roger A. University Physics 11th Edition

©2004

Addison Wesley Publishing Co., Inc.

13. Course Evaluation

:

The minimum requirement for a passing grade is 50% of each of the following components: Long Tests/Quizzes

60%

Seatwork/Homework

15%

Final Examination

25%

Total

100%

Aside from academic deficiency, other grounds for a failing grade are: ♦ Cheating during examinations ♦ More than 20 % absences of the total number of meetings in a quarterm ♦ Failure to take the final examination with no valid reason

Course Title:

GE PHYSICS 1-LECTURE

Date Effective:

1st Qtr SY2008-2009

Date Revised:

Prepared by:

Approved by: Page

July 09, 2008

Fe. M. Novida

Dante J. Sauquillo

of

5 6

14. Other References Sears, Zemansky, and Young. College Physics 7th Ed ©1992 Addison Wesley Publishing Co., Inc. Beiser, Arthur. Modern Technical Physics ©1992 Addison Wesley Publishing Co., Inc. Van Heuvelen, Alan. Physics: A General Introduction 2nd Ed ©1986 by Alan Van Heuvelen 15. Course Materials Available: Course Goals and Instructional Objectives Course Schedules for Lectures and Quizzes Samples of Problem Sets Acetates for Overhead Projector Samples of Written Examinations Demonstration Apparatuses

16. Committee Members: Ramil Jimenez May Lozada Fe Novida

Course Title:

GE PHYSICS 1-LECTURE

Date Effective:

1st Qtr SY2008-2009

Date Revised:

Prepared by:

Approved by: Page

July 09, 2008

Fe. M. Novida

Dante J. Sauquillo

of

6 6