Amninder Kaur
“From Formulas to Fun – Let’s Explore the magic of physics together"- Amninder kaur
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Amninder Kaur
Masters degree
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Each lesson is 55 min
50 lessons
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30 lessons
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20 lessons
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10 lessons
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Amninder - your physics tutor
Dear students, Many students feel nervous about physics, thinking it is difficult or complicated. My goal is to replace this fear with curiosity. I try to make lessons engaging by using stories, demonstrations, puzzles, and sometimes humor. hi... My name is Amninder Kaur, and I have been a teacher for over fifteen years, specializing in physics. Over these years, I have had the privilege of working with many renowned institutions in India, guiding and mentoring students from different backgrounds. Now, as I extend my teaching experience to international learners like you, I am eager to share not only knowledge but also the curiosity and joy that make physics such a fascinating subject. Teaching, for me, has never been just a profession—it is a passion. From the beginning of my career, I realized that education is not limited to textbooks or exams. It is about igniting curiosity and helping students develop confidence in their ability to learn.
Amninder graduated from Delhi university
Academic expertise of your physics tutor
State-Specific Standards (USA)
Review sessions
Next Generation Science Standards - NGSS (USA)
Career guidance
Personalized learning plans
Student types for physics class
ADHD
ASD
Physics for Beginners
Physics for Kids
Home schooled
Anxiety or Stress Disorders
Middle School students
High School students
Physics class snapshot
Students often ask: “Why should we study physics?” My answer is that physics is not just about equations; it is about developing a way of thinking. Physics cannot be mastered by memorizing formulas. Instead, it requires understanding the logic and reasoning behind each concept. For example, Newton’s laws are not just abstract rules; they explain everyday experiences like why we move backward when a bus suddenly starts, or why seatbelts are so important. By connecting lessons to real-life examples, I aim to make learning more relatable and meaningful. I also believe that students learn best when they participate actively. My classes are not one-way lectures. I encourage you to ask questions, share your ideas, and even challenge me when you think differently. Such interactions make the classroom a lively space where everyone learns from each other.
Amninder - Physics tutor also teaches
Optics
Electricity
Magnetism
Waves and Oscillations
Physics
Thermodynamics
Physics concepts taught by Amninder
The session covered wave properties, harmonics in strings and pipes, and the concept of echoes. The Student practiced calculating frequency, wavelength, wave speed, and harmonics in various scenarios. The Tutor assigned practice problems on the concepts discussed to reinforce understanding.
Resonance in Open and Closed Pipes
Sound Wave Speed and Echoes
Amplitude and Wavelength from Wave Snapshots
Harmonics and Resonance in Strings
Wave Speed on a String
Time Period and Frequency
Wave Velocity
Frequency
The session focused on wave properties, including types of waves, oscillatory motion, amplitude, periodic motion, time period, frequency, and wavelength. The Student practiced calculating wave velocity, frequency, and wavelength using given values and explored wave behavior in different mediums. The Tutor provided formulas and explanations to aid in problem-solving.
Wave Velocity on a String
Wave Interference: Constructive and Destructive
Wave Reflection at Boundaries
Wave Velocity
Wavelength
and Frequency Relationship
Oscillatory Motion and Key Terms
Wave Types: Longitudinal and Transverse
The session covered momentum, air resistance, elastic and inelastic collisions. The student practiced problems related to calculating momentum, final velocities after a drop, and velocity changes after elastic and inelastic collisions. The tutor reviewed formulas for calculating final velocities in different collision scenarios.
Momentum
Air Resistance
Kinematics Equation
Elastic Collisions
Inelastic Collisions
Force as Rate of Change of Momentum
The Tutor and Student reviewed dynamics problems involving force and acceleration. The Student then began exploring collisions and conservation of momentum and did practice problems. The next session will continue with a discussion of elastic collisions and the application of corresponding formulas.
Newton's Second Law Application
Elastic vs Inelastic Collisions
Impulse and Momentum Change
Conservation of Linear Momentum
Kinematics Equations with Constant Acceleration
The Tutor and Student discussed momentum, Newton's Second Law, impulse, and related applications. The Student worked through practice problems involving force, mass, velocity, and time, calculating changes in momentum and impulse in various scenarios. The Tutor assigned further practice problems to reinforce these concepts for the next session.
Momentum
Newton's Second Law of Motion
Impulse
Applications of Momentum and Impulse
The session covered elastic and inelastic collisions, introducing the coefficient of restitution. The Student learned how to calculate the final velocities of objects after a collision under various conditions, including equal and unequal masses. The tutor will reshare corrected diagrams and the Student was encouraged to review the material.
Types of Collisions
Coefficient of Restitution (e)
Conservation of Momentum in Collisions
Elastic Collision Equations: Equal Masses
Elastic Collision Equations: Unequal Masses
Special Cases: Mass Disparity
Classroom tools used by physics tutor
Interactive diagrams
Digital Note taking
Presentations
Practice worksheets
Engaging physics lessons
Parent feedback
Note taking
Weekend lessons
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