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Course / Course Details

UPPERSIXTH PHYSICS

  • High School Physics Tutor image

    By - High School Physics Tutor

  • 34 students
  • 166 Hours 40 Min
  • (0)

Course Requirements

UPPER-SIXTH PHYSICS course is designed to provide students with an advanced understanding of various principles and concepts in physics. This course aims to build upon the knowledge gained in previous years and equip students with the necessary skills to tackle complex problems and engage in scientific research. Course Objectives: 1. To develop a comprehensive understanding of fundamental physics concepts, including mechanics, thermodynamics, electromagnetism, and quantum mechanics. 2. To enhance critical thinking and problem-solving skills through the application of theoretical concepts to real-world scenarios. 3. To foster an appreciation for the role of physics in technological advancements and its impact on society. 4. To cultivate effective communication skills through scientific writing, presentations, and discussions. 

Course Description

UPPER-SIXTH PHYSICS course is designed to provide advanced knowledge and understanding of physics principles and concepts to students in their final year of secondary education. This comprehensive course aims to enhance critical thinking and problem-solving skills while exploring various topics such as electromagnetism, quantum mechanics, thermodynamics, and nuclear physics. Through a combination of theoretical learning, practical experiments, and mathematical analysis, students will develop a deep understanding of the fundamental laws governing the physical world. Our dedicated team of experienced educators ensures a professional learning environment that fosters academic excellence and prepares students for higher education or future careers in scientific fields.

Course Outcomes

per-Sixth Physics course is designed to provide students with an advanced understanding of various concepts and principles in physics. This course aims to prepare students for further studies in physics or related fields at the university level. Through a combination of theoretical knowledge and practical applications, students will develop critical thinking skills and problem-solving abilities. Course Objectives: 1. To deepen the understanding of fundamental concepts in physics, including mechanics, electromagnetism, thermodynamics, and quantum physics. 2. To enhance mathematical skills required for solving complex physics problems. 3. To develop practical skills through laboratory experiments and data analysis. 4. To foster scientific inquiry and encourage independent research. 5. To promote effective communication of scientific ideas through oral presentations and written reports. 6. To prepare students for university-level physics examinations. Course Topics: 1. Mechanics: - Kinematics and dynamics - Newton's laws of motion - Circular motion and gravitation - Work, energy, and power - Momentum and collisions 2. Electromagnetism: - Electric fields and potentials - Capacitance and dielectrics - Electric current and circuits - Magnetic fields and forces - Electromagnetic induction 3. Thermodynamics: - Laws of thermodynamics - Heat transfer and energy conversion - Entropy and the second law of thermodynamics - Ideal gases and kinetic theory

Course Curriculum

  • 10 chapters
  • 126 lectures
  • 30 quizzes
  • 166 Hours 40 Min total length
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1 Physical Quantities
3 Min

2 Physical Quantities [Quiz]
N/A

3 Mass and Weight
5 Min

4 Mass and Weight [Quiz]
N/A

5 Forces and Equipment Used to Study Forces
4 Min

6 Forces and Equipment Used to Study Forces [Quiz]
N/A

7 Safety Rules in the Physics Laboratory
4 Min

8 Safety Rules in the Physics Laboratory [Quiz]
N/A

1 Density
6 Min

2 Density [Quiz]
N/A

3 Archimedes' Principle
3 Min

4 Archimedes' Principle [Quiz]
N/A

5 Measuring the Density of Irregularly Shaped Objects
3 Min

6 Measuring the Density of Irregularly Shaped Objects [Quiz]
N/A

7 The Importance of Density
3 Min

8 The Importance of Density [Quiz]
N/A

1 Pressure intro
4 Min

2 Pressure intro [Quiz]
N/A

3 Pressure Liquids
3 Min

4 Pressure in Liquids [Quiz]
N/A

5 Atmospheric Pressure
3 Min

6 Atmospheric Pressure [Quiz]
N/A

1 Electrical energy
4 Min

2 Electrical Energy [Quiz]
N/A

3 An Oscillator
3 Min

4 Introduction to Pressure
4 Min

5 Pressure Liquids
3 Min

6 Atmospheric pressure
4 Min

7 Archemedes principle
4 Min

8 Measuring of density of irregularly shaped objects
3 Min

9 define density and state its units composition
7 Min

10 appreciate the use of density in every day life
4 Min

11 FORCES AND EQUIPMENT USED TO STUDY FORCES
4 Min

12 MASS AND WEIGHT
5 Min

13 LAB SAFETY. RULES
5 Min

14 (Lesson 1)Physical Quantities
3 Min

15 Equations of Motion
5 Min

16 Balanced and Unbalanced Forces
6 Min

17 Measurement in Physics
3 Min

18 HOW A SIMPLE MAGNET IS MADE
4 Min

19 What is a magnet
4 Min

20 Inertia of motion.
4 Min

21 IMPULSE
3 Min

22 Introduction to mechanics
4 Min

23 Differences between mass and weight
4 Min

1 Inertia of Motion
4 Min

2 Inertia of Motion [Quiz]
N/A

3 Introduction to Mechanics
3 Min

4 Introduction to Mechanics [Quiz]
N/A

5 Understanding Impulse
3 Min

6 Understanding Impulse [Quiz]
N/A

1 Stationary Waves
3 Min

2 Stationary Waves [Quiz]
N/A

3 Loudness
2 Min

4 Loudness [Quiz]
N/A

5 Pitch and Timbre
3 Min

6 Pitch and Timbre [Quiz]
N/A

1 Measuring the Speed of Sound in Air - The Echo Method
4 Min

2 Measuring the Speed of Sound in Air - The Echo Method [Quiz]
N/A

3 Measuring the Depth of the Sea Using Sonar
4 Min

4 Measuring the Depth of the Sea Using Sonar [Quiz]
N/A

5 HOW A SIMPLE MAGNET IS MADE
3 Min

6 What Are Magnets
3 Min

7 What Are Magnets [Quiz]
N/A

1 Balanced and Unbalanced Forces
5 Min

2 Balanced and Unbalanced Forces [Quiz]
N/A

1 Kepler’s Laws and Earth’s Gravitational Field Lesson Plan
5 Min

2 Gravitational Field Strength.
5 Min

3 Gravitational Field Variation Inside and Outside the Earth.
5 Min

4 Gravitational Field Variation Inside and Outside the Earth
5 Min

5 Gravitational Potential and Energy Lesson Plan
5 Min

6 Orbital Mechanics and Satellite Physics Lesson Plan
5 Min

7 Projectile and Parabolic Motion Comprehensive Guide
5 Min

8 Electric Charge and Current
5 Min

9 Conductivity and Charge Carriers
5 Min

10 Methods and Mechanisms of Electrostatic Charging
5 Min

11 Point Action and the Lightning Conductor
5 Min

12 Coulomb’s Law and the Inverse-Square Nature of Electrostatics
5 Min

13 Electric Field and Field Strength
5 Min

14 Electric Potential and Work Done in Moving a Charge
5 Min

15 Electric Dipoles and Torques
5 Min

16 Capacitor Identification and Circuit Symbols Lesson Plan
5 Min

17 Measurement of Capacitance Practical Guide
5 Min

18 Principles and Factors Affecting Parallel-Plate Capacitance
5 Min

19 Relative Permittivity and Dielectric Constants
5 Min

20 Capacitor Networks- Series, Parallel, and Energy Dynamics
5 Min

21 Energy and Charge in Capacitor Networks
5 Min

22 RC Circuit Dynamics- Charging and Discharging Capacitors
5 Min

23 The Magnetic Field
5 Min

24 Magnetic Flux and Density Units
5 Min

25 Magnetic Field Patterns of Current-Carrying Conductors
5 Min

26 Magnetic Force on Current-Carrying Conductors
5 Min

27 Fleming’s Left-Hand Rule and Magnetic Force
5 Min

28 Torque on a Rectangular Coil in a Magnetic Field
5 Min

29 Principles and Mechanics of DC and AC Electric Motors
5 Min

30 Principles and Applications of the Biot-Savart Law
5 Min

31 Magnetic Flux Density and Forces Between Currents
5 Min

32 Magnetic Forces on Moving Charges in Uniform Fields
5 Min

33 Measuring the Specific Charge of an Electron
5 Min

34 Principles and Applications of the Hall Effect
5 Min

35 Fundamentals of Dia-, Para-, and Ferromagnetic Materials
5 Min

36 Magnetic Permeability and Shielding Principles
5 Min

37 The Physics of the Lorentz Force
5 Min

38 Faraday’s and Lenz’s Laws of Electromagnetic Induction
5 Min

39 Motional Electromotive Force and Electromagnetic Induction
5 Min

40 Principles of AC and DC Electrical Generation
5 Min

41 Principles and Applications of Self and Mutual Inductance
5 Min

42 Dynamics of Current Growth and Decay in RL Circuits
5 Min

43 Magnetic Energy Storage and Inductance Theory
5 Min

44 Self and Mutual Inductance- Principles and Applications
5 Min

1 Introduction
5 Min

2 Introduction [Quiz]
N/A

3 Newtons law of universal gravitation
5 Min

4 Newtons law of universal gravitation [Quiz]
N/A

5 Magnitude of the gravitational force (mathematical and diagrammatic analysis)
5 Min

6 Magnitude of the gravitational force (mathematical and diagrammatic analysis) [Quiz]
N/A

7 Worked examples on gravitational force (calculating F)
5 Min

8 Worked examples on gravitational force (calculating F) [Quiz]
N/A

9 Worked examples on gravitational force (calculating r)
5 Min

10 In a worked example, if the gravitational force between two masses is known, how would you calculate the distance r between the masses? [Quiz]
N/A

11 Keplers laws and the motion of planets (the 3 laws)
5 Min

12 Keplers laws and the motion of planets (the 3 laws) [Quiz]
N/A

13 Worked examples on mathematical application of keplers laws (calculating solar mass)
5 Min

14 Worked examples on mathematical application of keplers laws (calculating solar mass) [Quiz]
N/A

15 The gravitational field
5 Min

16 The gravitational field [Quiz]
N/A

Instructor

High School Physics Tutor

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FCFA3,500.00

  • Duration 166 Hours 40 Min

  • Lectures 126 lessons

  • Enrolled 34 students

  • Category: Uppersixth science

  • 30 Quizzes

  • Language: English

  • Skill Level HIGH SCHOOL GRAMMAR

  • Certificate of Completion

  • Full lifetime access

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