Rohit Saseendran Nair

Interactive MSc physics tutor igniting intuitive mastery through theoretical modelling and problem-based learning.

Name: Physics tutor by Rohit Saseendran Nair
Brand: Wiingy
Price: 27 USD
Availability: OnlineOnly
Rating: 4.8 (32 reviews)

4.8(32)

Free trial lesson

Verified degree or teaching certification of Rohit

Private tutor - Rohit Saseendran Nair

Bachelors degree

$14

/ 30 min

About your physics tutor

I’m Rohit Saseendran Nair, an unabashed physics enthusiast and currently an MSc Physics student at the Cardiff School of Physics and Astronomy, and I’ve built my tutoring philosophy around a simple conviction: real understanding blooms at the moment when an idea jumps off the page and starts sparking questions of its own. Drawing on several years of teaching—from helping high-schoolers visualise Newton’s laws to guiding undergraduates through the complex calculations in experimental Physics, I weave every lesson into a single, living narrative of the physical universe, showing how Classical Mechanics, Electromagnetism, Waves and Oscillations, Quantum, Atomic and Nuclear Physics, and even the statistical quirks of Thermodynamics all rhyme with one another. My sessions look less like traditional lectures and more like collaborative expeditions. I place conceptual storytelling first, because once the mental picture is vivid, the math feels like adding coordinates to a familiar landscape. Then we cement that picture with intuitive problem sets that help you visualise and get a real feel for the concept.

Rohit graduated from Rajagiri School of Engineering and Technology

Physics class overview

My teaching approach is rooted in hands-on exploration and guided problem-solving that turns every lesson into an interactive, curiosity-driven journey toward firm conceptual mastery. As an MSc Physics student at Cardiff School of Physics and Astronomy, I tutor across a broad spectrum—Classical Mechanics, Electromagnetism, Waves and Oscillations, Quantum, and Nuclear & Atomic Physics theoretical and conceptual models to make each concept vivid and memorable. I follow a thoughtfully sequenced curriculum that covers every topic in depth while leaving room to pursue your questions in real time. Whether you’re in high school or college, you’ll receive personalised guidance that meets you at your current level, builds confidence through targeted practice, and equips you to excel in coursework and exams alike.

Homework help with quick turnaround

Students receive physics assignment support within 24 hours, ensuring a strong grasp of the subject.

Strong focus on conceptual clarity

9 out of 10 students report better understanding of physics concepts like electromagnetism, relativity, and waves.

Focused on real-world problem-solving

Lessons link physics concepts to practical, real-life applications, making learning relevant and impactful.

Specialities of your physics tutor

Advanced Placement (AP) Program (USA)

Next Generation Science Standards - NGSS (USA)

Common Core State Standards - CCSS (USA)

New Zealand Curriculum - NZC (NZ)

Test prep strategies

Review sessions

Physics experiments

Real world application

Homework help

A-Levels (UK)

Personalized learning plans

Visual learning

4.8

32 ratings

Physics concept taught by Rohit

Braeden learned 4 days ago

Jul 28, 2025, 01:00 pm (PDT)

Rohit tutored Braeden, covering Fourier analysis, the Schrödinger equation, and the Dirac delta function. He explained concepts like sinusoidal functions, Fourier series, wave numbers, the uncertainty principle, and the time evolution operator. He also demonstrated the Dirac delta function's properties and scheduled a follow-up session for Friday at 8:30 PM, requesting Braeden to email his spring semester booklet.

Fourier Analysis

Wave Number (k)

Time Evolution Operator

Direct Delta Function

Orthogonality and Orthonormality

Schrödinger Equation Derivation

Emma learned 16 days ago

Jul 16, 2025, 03:30 pm (BST)

Rohit tutored Emma on op-amps, covering their basic functions, ideal attributes, and different configurations. The session then shifted to optics, where they discussed reflection, refraction, total internal reflection, and diffraction. They also explored the electromagnetic spectrum, including the properties and applications of different types of radiation, and agreed to continue the discussion in the next session.

Inverting and Non-Inverting Op Amp Stages

Operational Amplifiers (Op Amps)

Wave-Particle Duality

Wavelength and Frequency

Fiber Optics

Total Internal Reflection

Refraction

Electromagnetic Radiation

Emma learned 17 days ago

Jul 15, 2025, 07:30 pm (BST)

Rohit tutored Emma on electrical circuits, covering complex numbers, RC circuits (including low-pass and high-pass filters), LCR circuits, and resonant frequency. They worked through circuit analysis problems involving equivalent resistance and Kirchhoff's laws. The session concluded with plans to discuss op-amps, interference, and magnetism in a future meeting.

Circuit Simplification

Resonant Frequency

High Pass Filter

Capacitive Reactance

Voltage Divider

Complex Numbers

Low Pass Filter

Emma learned 20 days ago

Jul 12, 2025, 03:30 pm (BST)

Rohit tutored Emma on electrical circuit concepts, including resistors, Ohm's Law, Kirchhoff's Laws, series and parallel circuits, voltage dividers, Wheatstone bridges, capacitors, inductors, and AC/DC circuits. Emma worked through practice problems to solidify her understanding. Rohit assigned additional problems for Emma to practice before their next session on Tuesday.

Series Circuits

Parallel Circuits

Ohm's Law

Kirchhoff's Laws

Voltage Divider

Wheatstone Bridge

Capacitors

Inductors

Emma learned 25 days ago

Jul 07, 2025, 12:30 pm (BST)

Rohit tutored Emma on the fundamentals of electricity, covering electric charge, Coulomb's law, electric fields, potential energy, conductors, insulators, current, drift velocity, Ohm's law, and electromotive force. They discussed the internal mechanisms of a battery and the concept of steady state. Emma will review the material, and they scheduled a two-hour follow-up session for Saturday evening.

Current and Drift Velocity

Electromotive Force (EMF)

Ohm's Law and Resistance

Conductors

Insulators

and Semiconductors

Potential Difference

Work and Potential Energy