Physics For Jee Mains (Part-1)

Units, Dimensions and Measurements, Vectors, Motion in one dimension, Motion in two dimensions, Newtons laws of Motion

What you'll learn

Students will acquire knowledge of key concepts in physics, Problem-Solving, Concept Maps, Practical Applications.

Units and dimensions, Vectors, Motion in one dimension, Motion in two dimensions, Newtons laws of motion.

Problem Solving Techniques for the above said units.

Solutions for Previous Year Questions in the units of Units and dimensions, Vectors, Motion in one dimension, Motion in two dimensions, Laws of Motion.

Requirements

Course teaching is from basic level to advance level

Description

The JEE Mains Physics course provides a comprehensive foundation in fundamental physics concepts essential for success in the JEE Mains examination. Designed for aspiring engineers, the course covers key topics including Units and Measurements, Vectors, Motion in one dimension, Motion in two dimensions, Newtons laws of Motion.Students will explore critical areas such as Electrostatics, Current Electricity, Magnetism, and Optics, emphasizing both theoretical understanding and practical applications. The curriculum is structured to enhance problem-solving skills through rigorous practice, ensuring students can tackle complex numerical problems and conceptual questions effectively.Teaching methodologies include interactive lectures that clarify concepts, dedicated problem-solving sessions, and mock tests simulating the JEE format to build familiarity and confidence. Group discussions foster collaborative learning and deeper understanding of challenging topics.Regular assessments, including quizzes and periodic tests, will monitor progress and highlight areas needing improvement, culminating in comprehensive evaluations that reflect the JEE Mains structure. By the end of the course, students will possess a thorough understanding of physics principles and be equipped with the analytical skills necessary to excel in the JEE Mains exam.This course not only prepares students academically but also cultivates a lasting appreciation for the field of physics, paving the way for future studies in engineering and related disciplines.Note:- This course is intended for students below 18 years so the course should be purchased by parents or guardians who will be supervising their learning through their credentials.

Overview

Section 1: Units, Dimensions and Measurements

Lecture 1 1.1 Introduction

Lecture 2 1.2Types of physical quantities and units

Lecture 3 1.3 Prefixes

Lecture 4 1.4 Practical units

Lecture 5 1.5 Dimensions of physical quantities

Lecture 6 1.5.1 Dimensions and quantities (Mechanics)

Lecture 7 1.5.2 Dimensions of quantities

Lecture 8 1.5.3 Dimensions of Quantities (E and M)

Lecture 9 1.6 Quantities having same dimensions

Lecture 10 1.7 Applications of dimensional analysis

Lecture 11 1.8 Errors and significant numbers

Lecture 12 1.9 Significant figures

Lecture 13 1.10 Rounding off numbers

Lecture 14 1.11 Significant figures in calculation

Lecture 15 1.12 Least count

Lecture 16 1.13 Error in calculation

Lecture 17 1.14 Types of errors

Lecture 18 1.15 Previous year questions-1

Lecture 19 1.16 Previous year questions-2

Section 2: Vectors

Lecture 20 2.1 Introduction

Lecture 21 2.2 Types of vectors

Lecture 22 2.2.1 Problem solving technique

Lecture 23 2.3 Vector addition and subtraction

Lecture 24 2.3.1 Triangle law of vector addition

Lecture 25 2.3.2 Parallelogram law of vector addition

Lecture 26 2.3.3 Subtraction of vector (Graphical method)

Lecture 27 2.4 Important problems-1

Lecture 28 2.4.1 Important problems-2

Lecture 29 2.5 Resolution of vectors

Lecture 30 2.6 Vector multiplication of two vectors

Lecture 31 2.6.1 Scalar product or dot product

Lecture 32 2.6.2 Some important points on dot product

Lecture 33 2.6.3 Dot product of self vectors

Lecture 34 2.7 Cross product or vector product

Lecture 35 2.8 Properties of vector product

Lecture 36 2.9 Geometric interpretation of cross product

Lecture 37 2.10 Important problems

Lecture 38 2.11 Previous year questions-1 (Vectors)

Lecture 39 2.12 Previous year questions-2 (Vectors)

Section 3: Motion in one dimension

Lecture 40 3.1 Introduction

Lecture 41 3.2 Objects in motion

Lecture 42 3.3 Distance and displacement

Lecture 43 3.4 Speed, types of speeds

Lecture 44 3.5 Velocity, types of velocities

Lecture 45 3.6 Acceleration, types of acceleration

Lecture 46 3.7 Graphical view of motion

Lecture 47 3.7.1 Various position-time graphs and their interpretation

Lecture 48 3.8 Velocity time graph

Lecture 49 3.8.1 Various velocity-time graph and their interpretation

Lecture 50 3.9 Equations of motion (acceleration=constant)

Lecture 51 Important information for uniformly accelerated body

Lecture 52 S-t graphs for some standard results

Lecture 53 3.11 Relative velocity

Lecture 54 3.12 River boat problems

Lecture 55 3.12.1 Crossing river in shortest path

Lecture 56 3.12.2 Crossing river in shortest time

Lecture 57 3.12.3 Graphical representation of relative velocity

Lecture 58 3.13 Motion under gravity (Free fall)

Lecture 59 3.14 Body projected vertically upwards

Lecture 60 3.16 Previous year questions-2

Section 4: Motion in two dimensions

Lecture 61 4.1 Introduction

Lecture 62 4.2 Motion with uniform velocity in a plane

Lecture 63 4.3 Equation of motion of object

Lecture 64 4.4 Equation of path

Lecture 65 4.5 Motion with uniform acceleration in a plane

Lecture 66 4.6 Expression for displacement in uniformly accelerated motion

Lecture 67 4.7 Projectile motion (definition)

Lecture 68 4.7.1 Principles of physical independence of motions

Lecture 69 4.7.2 Different types of projectile motion

Lecture 70 4.7.3 Oblique projectile motion

Lecture 71 4.7.4 Time of flight, Horizontal range

Lecture 72 4.7.5 Change in velocity

Lecture 73 4.7.6 Relation between range and maximum height

Lecture 74 4.8 Horizontal projectile motion

Lecture 75 4.8.1 Horizontal projectile motion in steps

Lecture 76 4.9 Projectile motion on an inclined plane

Lecture 77 4.10 Circular motion (Introduction)

Lecture 78 4.10.1 Important terminology for circular motion

Lecture 79 4.10.2 Angular displacement

Lecture 80 4.10.3 Angular velocity

Lecture 81 4.10.4 Change in velocity

Lecture 82 4.10.5 Time period

Lecture 83 4.10.6 Frequency

Lecture 84 4.10.7 Angular acceleration

Lecture 85 4.10.8 Centripetal force

Lecture 86 4.10.9 Work done by centripetal force

Lecture 87 4.10.10 Skidding of vehicle on a level road

Lecture 88 4.10.11 Skidding of object on a rotating platform

Lecture 89 4.10.12 Bending of cyclist

Lecture 90 4.10.13 Banking of a road (without friction)

Lecture 91 4.10.14 Banking of a road (with friction)

Lecture 92 4.10.15 Over turning of a vehicle

Lecture 93 4.10.16 Non uniform circular motion

Lecture 94 4.10.17 Equations of uniform circular motion

Lecture 95 4.11 Previous year questions-1

Lecture 96 4.12 Previous year questions-2

Lecture 97 4.13 Previous year questions-3

Section 5: Newton's laws of motion

Lecture 98 5.1 Introduction

Lecture 99 5.2 Newton's first law of motion

Lecture 100 5.3 Types of inertia

Lecture 101 5.4 Newton's second law of motion

Lecture 102 5.5 Examples for direction of force

Lecture 103 5.6 Concurrent forces

Lecture 104 5.7 Newton's third law of motion

Lecture 105 5.8 Frame of reference

Lecture 106 5.9 Impulse

Lecture 107 5.10 Law of conservation of linear momentum

Lecture 108 5.11 Examples for law of conservation of linear momentum

Lecture 109 5.12 Change in momentum for projectile motion

Lecture 110 5.13 Types of forces

Lecture 111 5.14 Applications of change in momentum

Lecture 112 5.15 Free body diagram (FBD)

Lecture 113 5.16 Apparent weight of a body in a lift

Lecture 114 5.17 Acceleration on smooth surfaces

Lecture 115 5.18 Motion of blocks in contact

Lecture 116 5.19 Motion of blocks connected by mass less strings

Lecture 117 5.20 Motion of connected blocks over a pulley-1

Lecture 118 5.21 Motion of connected blocks over a pulley-2

Lecture 119 5.22 Motion of connected blocks over a pulley-3

Lecture 120 5.23 Previous year questions-1

Lecture 121 5.24 Previous year questions-2

This course is useful for 11th class students.,Helpful for Engineering students also.