Physics ⅠB

Course Information

College Toyama College Year 2024
Course Title Physics ⅠB
Course Code 0006 Course Category General / Compulsory
Class Format Lecture Credits School Credit: 1
Department Department of Mechanical Engineering Student Grade 1st
Term Second Semester Classes per Week 2
Textbook and/or Teaching Materials Text book; "PHYSICS" ISBN 978-4-410-81133-3 & ISBN 978-4-410-81103-6, in Japanese
Instructor Toshima Takeshi

Course Objectives

1. Work, power, kinetic energy and potential energy can be derived for mechanical energy. Understand the law of conservation of mechanical energy and can be applied to the calculation of physical quantities
2. Understand the concept of momentum regarding momentum
Understand that impulse is the difference of momentum and the law of conservation of momentum, and can be applied to calculation of physical quantity
3. Understand how to express various quantities such as period and frequency for simple vibration and circular motion.
Understand the relationship between displacement, speed, acceleration, and force, and can apply to calculation of physical quantities
4. Understand the universal gravitational formula with respect to the law of universal gravitation
Derivation of universal gravitation and potential energy
5. For rigid bodies, understand the definition of rigid bodies, and can calculate the balance of force and the center of gravity.
In addition, understand the moment of inertia for simple shapes

Rubric

Standard Level of AchievementUnacceptable Level of Achievement
Mechanical energy (1)Can calculate work and powerCan not calculate work and power
Mechanical energy (2)Can calculate the kinetic energy of an objectCan not calculate the kinetic energy of an object
Mechanical energy (3)Can calculate potential energy due to gravityCan not calculate potential energy due to gravity
Mechanical energy (4)Can calculate potential energy by elastic forceCan not calculate potential energy by elastic force
Mechanical energy (5)Understand the laws of conservation of mechanical energy and can be used for calculating various physical quantitiesCan not understand the laws of conservation of mechanical energy and be used for calculating various physical quantities
Momentum (1)Can calculate momentum from the mass and velocity of the objectCan not calculate momentum from the mass and velocity of the object
Momentum (2)Can calculate various physical quantities by using the difference of momentum equal to impulseCan not calculate various physical quantities by using the difference of momentum equal to impulse
Momentum (3)Can calculate various physical quantities by using momentum conservation lawCan not calculate various physical quantities by using momentum conservation law
Simple harmonic oscillation (1)Can calculate various quantities that characterize simple harmonic oscillation such as period and frequencyCan not calculate various quantities that characterize simple harmonic oscillation such as period and frequency
Simple harmonic oscillation (2)Can explain the relationship between displacement, velocity, acceleration, and force in simple harmonic oscillationCan not explain the relationship between displacement, velocity, acceleration, and force in simple harmonic oscillation
Constant velocity circular motionCalculate velocity, angular velocity, acceleration, and centripetal force of an object performing constant velocity circular motionCalculate velocity, angular velocity, acceleration, and centripetal force of an object performing constant velocity circular motion
Universal gravitation (1)Can calculate the universal gravitational force acting between objects from the law of universal gravitational forceCan not calculate the universal gravitational force acting between objects from the law of universal gravitational force
Universal gravitation (2)Can calculate potential energy by universal gravitationCan not calculate potential energy by universal gravitation
Moment of forceCan calculate the moment of forceCan not calculate the moment of force
Angular momentumUnderstand angular momentum and the law of conservation of angular momentum, and can explain using specific examplesCan not understand angular momentum and the law of conservation of angular momentum
Rigid body (1)Can calculate the force balance in a rigid bodyCan not calculate the force balance in a rigid body
Rigid body (2)Can calculate the center of gravity of a rigid bodyCan not calculate the center of gravity of a rigid body
Rigid body (3)Can explain the relationship between the moment of inertia and the equation of motion of rotation for simple shapesCan not explain the relationship between the moment of inertia and the equation of motion of rotation for simple shapes

Assigned Department Objectives

Teaching Method

Outline:
Learning physics is not the basis of learning mathematical formulas, but is the foundation for acquiring a broad perspective on understanding natural science and applying it to engineering.
To deepen the understanding that physics can mathematically interpret various phenomena in natural science through exercises
Style:
Lecture will be held by the teacher.
(This may change according to student's understanding degree.)
Notice:
When preparing and reviewing, make a habit of organizing what you understand or do not understand

Characteristics of Class / Division in Learning

Active Learning
Aided by ICT
Applicable to Remote Class
Instructor Professionally Experienced

Course Plan

Theme Goals
2nd Semester
3rd Quarter
1st Notation of force and composition and decomposition, kind of force Can illustrates the forces acting on an object and can combine and decompose
Can explain gravity, drag, tension and pressure
2nd Balance of force, elasticity Can calculate the magnitude of elastic force by using Hooke's law
3rd Equation of motion Can explain the law of inertia and the law of action and reaction
4th Mechanical energy (1) Can calculate work and work rate
Can calculate the kinetic energy of an object
5th Mechanical energy (2) Can calculate potential energy due to gravity and elastic force
Understand the laws of conservation of mechanical energy and can calculate physical quantities
6th Momentum and impulse Understand the relationship between momentum definition and impulse
Understand the law of conservation of momentum and can calculate physical quantities
7th Mid exam
8th Rigid body(1) Understand the definition of a rigid body and can calculate the force balance
4th Quarter
9th Rigid body(2) Can calculate the center of gravity of a rigid body
10th Moment of force Understand the difference between force and force moment
Can calculate the moment of force
11th Constant velocity circular motion (1) Understand notation of various quantities in constant velocity circular motion
12th Constant velocity circular motion (2) Can calculation of object velocity, angular velocity, acceleration, centrifugal force and centripetal force
13th Simple harmonic oscillation Understand the quantities that characterize simple vibrations, such as period and frequency
Can explain the relationship between displacement, velocity, acceleration, and force in simple harmonic oscillation
14th Universal gravitation Understand the law of universal gravitation
Can calculate universal gravitational force and potential energy acting between objects
15th Final exam
16th Return exam papers
Explanation of exam

Evaluation Method and Weight (%)

ExaminationPortfolioTotal
Subtotal8020100
Basic Ability8020100
Technical Ability000