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Past Tests

12th Physics Syllabus and Schedule (2017-18)      September 5, 2017   Tohei Moritani

1. Course Description
   This course is advanced level physics and is required for students who wish to go to scientific departments in Keio University.  A key goal of this course is for students to understand advanced concepts in physics and solve quantitative problems.  Students are supposed to have mastered basic key concepts and skills in 11th grade Physics.  The curriculum includes labs and writing reports as major activities in addition to lectures, demonstrations and examinations. Every student must have his/her own project, submit a report and present a show at Shofusai.

2. Textbook and Packets
   Textbook povided must be used in class and also for preparation and review. Packets are alsogiven to students that include typical examples of problems to be solved together with illustrations and graphs.  These packets are designed to motivate students and help them clarify what they are required to understand and solve. 

    w           
    Walker, Pearson Physics       


 

3. Language
   Lecture will be performed in Englis orally with technical terms written in English and Japanese on the board.  Problems in the packets, exams, mini-tests and quizzes will be written in English.

4. Labs and Lab Reports

  1. Labs are carried out as major and essential activities basically every week in double-period classes.
  2. Students must submit lab reports written in the formal scientific style, typed or handwritten, in Japanese or in English, within a week after each lab.

5. Website
  Physics class’ own website includes all the necessary information for studying; such as, class schedules, examples of lab reports, solutions of tests and exams.  The site can be accessed through KANYOS.

6. Grade
  Grade will be calculated as follows:
Exams, Tests and Quizzes                     65% (12 + 12 + 41%)
Labs, Lab reports and Assignments      25%
Class Participation                              10%


Chapter Topics Packet Test
1,2 (Introduction to Physics, 1-D Kinematics)    
3 Vectors in Physics #1 Motion 1Q-#1
4,5,6 2D Kinematics, Newton's Lawas of Motion, Applications    
6-5 Circular Motion, Inertial Force #1 Motion 1Q-#1
7,8 Work and Energy, Potential Energy    
9 Linear Momentum and Collisions   1Q-#2
10 Rotational Kinematics and Energy   1Q-Ex
11 Rotational Dynamics and Static Equilibrium   2Q-#1
12 Gravity   2Q-#2
13 Oscillations about Equilibrium   2Q-#2
14 Wave and Sound    
14 (3) Harmonic Wave Functions   2Q-#2
15 Fluids   2Q-Ex
16 Temperature and Heat    
17 Phases and Phase Changes   2Q-Ex
18 The Laws of Thermodynamics   3Q-#1
19 Electric Charges, Forces, and Fields    
19 (5~7) Electric Field Lines, Gauss’s Law   3Q-#2
20 Electric Potential and Electric Potential Energy   3Q-#2
21 Electric Current and Direct-Current Circuits    
21 (5~7) Kirchhoff’s Rules, RC Circuits   3Q-Ex
22 Magnetism   4Q-#1
23 Magnetic Flux and Induction   4Q-#1
24 Alternating-Current Circuits   4Q-#1
25 Electromagnetic Waves   4Q-#1
26,27 Geometrical Optics, Optical Instruments    
28 Physical Optics: Interference and Diffraction   4Q-#1
29 Relativity   4Q-#2
30 Quantum Physics   4Q-#2
31 Nuclear Physics and Nuclear Radiation   4Q-Ex


Schedule Plan - AP Physics by Tohei MORITANI     2018 ~ 2019

Physics Home       Subject Title    
11th Physics Schedule
          Class Lab Demo
               
  SA            
  SU
 



 
MO
 



No Lab
Aug 28
TU
29
WE
30
TH
 
31
FR
1
Sep
SA
 
2
SU
 

3

MO
 
Labor Day
I Force and Motion
力と運動

Chap. I. Motion
物体の運動

3. Vectors in Physics

I-4. Expressions of motion 運動の表し方
 A. Displacement Vector 位置ベクトル B. Velocity Vector 速
  E. Accerelation Vector

  ( Combining Velocities 速度の合成)      
4
TU
2
5
WE
3
Entrance Ceremony
6
TH
4
C
7
FR
5
C
8
SA
       
9
SU
       
10
MO
6
C
 

 


 1. Horizontal Free Fall 自由落下を水平で (Newton's 2nd Law)   
11
TU
7
C
12
WE
8
CC
13
TH
9
C
14
FR
10
C
15
SA
       
16
SU
       
17
MO
11
C
 

4. Circular Motion
  Uniform Circular Motion and Centrietal Force
Non-Uniform Circular Motion

Inertial Force in a Non-Inertial Frame

   
18
TU
12
19
WE
13
CC
20
TH
14
C
21
FR
15
C[Test]
22
SA
       
23
SU
       
24
MO
16
C
 

Centrifugal Force, Coriolis Force

9. Linear Momentum
   B. Momentum Change and Impulse

 1. Centripetal Force  
25
TU
17
26
WE
18
CC
27
TH
19
C
28
FR
20
C
29
SA
       
30
SU
       

Oct1

MO
21
C
 



I-5 Conversation of Momentum


 2._Momentum 運動量−1 衝突  <1>
 3._Momentum 運動量−2 分裂
  <1>
 
2
TU
22
3
WE
 
TOEFL Theater
4
TH
23
C
5
FR
24
C
6
SA
       
7
SU
       
8
MO
ColumbusDay
 

 


Momentum and Mechanical Energy  <2>

 B. Coefficient of Restitution



 1. ProjectileMotion  放物運動 <2>

 
9
TU
25
10
WE
26
CC
11
TH
27
C
12
FR
 
Athletic Day
13
SA
       
14
SU
       
15
MO
28
C
 

10. Rotationl Kinematics
Relation between Rotational Motion and Linear Motion
Moment of Inertia
Kinematic Energy and Conservation of Mechanical Energy



 
16
TU
29
17
WE
30
CC
18
TH
31
C
19
FR
32
C[Test]
20
SA
       
21
SU
       
22
MO
33
C
 

11. Rotational Dynamics

Torque and Angular Acceleration
Equation of Rotational Motion
Angular Momentum
Conservation of Angular Momentum

No Lab 5. Torques in Equilibrium 力のモーメントのつりあい  
23
TU
34
 
24
WE
35
CC
25
TH
36
C
26
FR
37
C
27
SA
       
28
SU
       
29
MO
38
C
 


 

 

30
TU
 
1st Q Exam
31
WE
 
1st Q Exam
Nov1
TH
 
1st Q Exam
2
FR
 
1st Q Exam
3
SA
       
4
SU
       
5
MO
1
C
 


12. Gravity
 A. Keplar's Laws
 B. Universal Gravitation

 
6
TU
2
7
WE
3
CC
8
TH
4
C
9
FR
5
C
10
SA
       
11
SU
       
12
MO
6
C
 

C. Gravitational Force at the Earth's Surface
D. Potential Energy due to Universal Gravitation

   
13
TU
7
 
14
WE
8
CC
 
15
TH
9
C
 
16
FR
Parents'Day
 
17
SA
       
18
SU
       
19
MO
10
C
 

13. Oscillation About Equilibrium
 A. Spring Pendulum and Equation of Motion
  B. Expression of Simple Harmonic Oscillation
 C. Shade of Circular Motion

   
20
TU
11
21
WE
 
ThanksgivingBreak
22
TH
   
23
FR
   
24
SA
       
25
SU
       
26
MO
12
C
 


D. Simple Pendulum 単振り子
 E. Energy of Simple Harmonic Oscillation

 
27
TU
13
28
WE
14
CC
29
TH
15
C
30
FR
16
C[Test]
Dec1
SA
 
       
2
SU
       
3
MO
17
C
 

15. Fluids

 
4
TU
18
5
WE
19
CC
6
TH
20
C
7
FR
21
C
8
SA
       
9
SU
       
10
MO
22
C
 

16. Temperature and Heat

No Lab  
11
TU
23
12
WE
24
CC
13
TH
25
C
   
14
FR
26
C
   
15
SA
Winter Vacation
       
16
SU
       
17
MO
       
18
TU
 
19
WE
 
20
TH
 
21
FR
 
22
SA
       
23
SU
       
24
MO
 
   
25
TU
 
26
WE
 
27
TH
 
28
FR
 
29
SA
       
30
SU
       
31
MO
 
   
Jan 1
TU
       
2
WE
 
 
   
3
TH
 
 
4
FR
 
 
5
SA
 
       
6
SU
 
       
7
MO
27
C
  17. Phases and Phase Changes
7. Spring Pendulum ばね振り子 <2>
8. Simple Pendulum 単振り子 <1>
 
8
TU
28    
9
WE
29
CC
10
TH
30
C
11
FR
31
C[Test]
12
SA
       
13
SU
       
14
MO
   18. Thermal Processes No Lab  
15
TU
32
   
16
WE
33
CC  
17
TH
34
C  
18
FR
35
C  
19
SA
       
20
SU
       
21
MO
36
MLK Day
Electromagnetism
電磁気

Chap. I
Charge and Electric Field 電荷と電場


 
22
TU
 
2nd Q Exam
23
WE
 
2nd Q Exam
24
TH
 
2nd Q Exam
25
FR
 
2nd Q Exam
26
SA
       
27
SU
       
28
MO
1
C

 

19. Electric Charges, Forces and Fields

Field - Electric Field Lines - Gaus's Law

 9._ Electric Field Lines 電気力線  
29
TU
2
30
WE
3
CC
31
TH
4
C
Feb1
FR
5
C
2
SA
       
3
SU
       
4
MO
6
C

 


I-4 Electrostatic Induction 静電誘導 <
 A. Leaf Electroscope and Electrostatic Induction 箔検電器と静電誘導
 B. Electrostatic Shielding 静電遮蔽(しゃへい)

I-5 Capacitor コンデンサー <> 
A. Principle of Capacitor コンデンサーの原理B. Capacitance of Parallel Plate Capacitor 平行板コンデンサーの電気容量

 I-3 Electrical Potential 電位 <>A. Electrical Potential 電位
 B. Electrical Potential Difference 電位差C. Uniform Electric Field and Field Strength 一様電場とその強度
 D. Electric Potential made by a Point Charge 点電荷のつくる電位
 E. Equipotential Surface 等電位面
[ Quiz = Mini Test]<
 
5
TU
7
6
WE
8
CC
7
TH
9
C
8
FR
10
C
9
SA
       
10
SU
       
11
MO
11
C
 


I-6. Connection of Capacitors コンデンサーの接続 <
 A. Parallel Connection 並列接続 B. Series Connection 直列接続 

I-7 Energy of Electric Field and Dielectric Polarization 電場のエネルギーと誘電分極  <
A. Energy stored in Capacitor コンデンサーに蓄えられるエネルギーB. Energy of Electric Field 電場のエネルギー
 C. Dielectric Polarization of a Nonconductor 不導体の誘電分極
 D. Dielectric and Capacitor 誘電体とコンデンサー

11.Capacitor & Capacity 平行平板コンデンサー,電気容量  
12
TU
12
 
13
WE
13
CC
14
TH
14
C
15
FR
15
C[Test]
16
SA
         
17
SU
         
18
MO
  PresidentsDay  

II-1 Kirchhoff's Rules キルヒホッフの法則 <
 A. Current Circuits and Curcuit Devices電流回路と素子
 B. Kirchhoff's 1st Rule 第1法則 C. Kirchhoff's 2ndt Rule 第2法則

II-2 Resistance 抵抗 <2.5
 A. Temperature Dependence of ResistorB. Internal Resistance 内部抵抗
 C. Wheatstone Bridge Circuit ホイートストンブリッジ回路
 D. Circuits including Capacitors コンデンサーを含む回路

  12.Internal Resistivity 内部抵抗  
19
TU
16

Chap. II
Direct Current Circuits

直流回路

20
WE
17
CC
21
TH
18
C
22
FR
19
C
23
SA
         
24
SU
         
25
MO
20
C  

III-1 Magnetic Field 磁場 <
A. Magnetic Force exerted on Current 磁場中に置かれた電流が受ける力
 B. Magnetic Flux Density 磁束密度 C. Magnetic Field Line 磁力線
III-2 Various Magnetic Fields いろいろな磁場   <
  - A. B. C. D.

   
26
TU
21
 
27
WE
22
CC
28
TH
23
C
Mar1
FR
24
C
2
SA
Entrance Exam
       
3
SU
Entrance Exam
       
4
MO
Entrance Exam
 

III-3 Magnetic Force exerted on Current 磁場中の電流が受ける力 <
 A. Forces exerted between Parrallel Current 平行電流間に働く力
 B. Definition of 1A 1Aの定義

 C. Force exerted on Current 磁場中に置かれた電流が受ける力
 D. Force exerted on a Coil 磁場中に置かれたコイルが受ける力

 13.Wheatstone Bridge ホイートストンブリッジ

 
5
TU
25
6
WE
26
CC
7
TH
27
C
8
FR
28
C[Test]
9
SA
       
10
SU
       
11
MO
29
C
Chap. III
Current and Magnetic Field 電流と磁場


III-4 Lorenz Force ローレンツ力 <
 A. Force exerted on a Moving Charge 運動する電荷が磁場から受ける力

 B. Motion of a Point Charge in a Magnetic Field 磁場中での荷電粒子の運動
 C. Screw Motion らせん運動
 D. Lorenz Force exerted on Current ローレンツ力から電流が受ける力

14.Current in a Magnetic Field 磁場中の電流  
12
TU
30
 
13
WE
31
CC
14
TH
32
C
15
FR
33 C
16
SA
       
17
SU
       
18
MO
34
C
  III-5 Magnets and Magnetic Substances 磁石と磁性体 <
   
19
TU
3rd Q Exam
20
WE
3rd Q Exam
21
TH
3rd Q Exam
22
FR
3rd Q Exam
23
SA
Open House
       
24
SU
       
25
MO
1
C
 



IV-1 Electromagnetic Induction 電磁誘導 <
A. Electromagnetic Induction 電磁誘導
 B. Magnetic Flux Change and Induced Current 磁束の変化と誘導起電力
 C. Lenz's Law レンツの法則
D. Faraday's Law of EM Induction ファラデーの電磁誘導の法則
E. Motional emf , Electric Generation

   [Project Research 課題研究 - 発表準備]  
26
TU
2
27
WE
3
CC
28
TH
4
C
29
FR
5
C
30
SA
           
31
SU
           
Apr1
MO
6
C
 

IV-2. Mutual Induction and Self-Induction 相互誘導と自己誘導 <
 A. Mutual Induction and Mutual Inductance 相互誘導と相互インダクタンス
 B. Self Induction and Self Inductance 自己誘導と自己インダクタンス
 C. Magnetic Energy stored on a Coil コイルが持つ磁場のエネルギー

   
2
TU
7
 
3
WE
8
CC
 
4
TH
9
C
 
5
FR
Prep-for-Shofusai
 
6
SA
Shofusai
       
7
SU
Clean-up        
8
MO
 
Day off
 

 

   
9
TU
 
Day off
 
10
WE
 
Day off
 
11
TH
 
Day off
 
12
FR
  Day off  
13
SA
       
14
SU
       
15
MO
10
C
 

IV-3 Alternating Current 交流 <2>
 A. AC 交流 B. AC in Resistor 抵抗を流れる交流 C. Effective Value実効値
IV-4 AC Circuits交流回路 <2>
IV-5 ElectricOscillation 電気振動 <1.5>

16.Oscilloscope オシロスコープ  
16
TU
11
C
17
WE
12
18
TH

13

C
19
FR
14
C[Test]
20
SA
Keio F Day
       
21
SU
       
22
MO
15
C
Chap. IV
Elactromagnetic Induction and EM Waves
電磁誘導と電磁波

29. Relativity



 15.EM_Induction 電磁誘導
 
23
TU
16
24
WE
17
TOAFL CC
25
TH
18
C
26
FR
19
C
27
SA
       
28
SU
       
29
MO
20
C
 

30. Quantum Physics

 17.Mic&Speakers マイクとスピーカー  
30
TU
21
May1
WE
Day Trip
2
TH
22
C
3
FR
23
C
4
SA
       
5
SU
       
6
MO
24
C
 

31. Atomic Physics

 18.Functions of Coil and Capacitor in a Speaker スピーカーでコンデンサーとコイルの性質を調べる  
7
TU
25
8
WE
26
CC
9
TH
27
C
10
FR
28
C[Test]
11
SA
       
12
SU
       
13
MO
29
C


32. Nuclear Physics

 19.Radio ラジオ  
14
TU
30
15
WE
31
CC
16
TH
32
C
17
FR
33
C
18
SA
       
19
SU
       
20
MO
34
C
 

 

   
21
TU
35    
22
WE
36 CC  
23
TH
37
C  
24
FR
38 C  
25
SA
       
26
SU
       
27
MO
Memorial Day
       
28
TU
Final Exam
 
29
WE
Final Exam
 
30
TH
Final Exam
 
31
FR
Final Exam
 

Jun1

SA
       
2
SU
       
3
MO
       
4
TU
 
5
WE
 
6
TH
 
7
FR
 
8
SA
       
9
SU
       
10
MO
 
   
TU
 
WE
 
TH
 
FR
 
SA
       
SU