Class 11 Physics (India)
Course Description
Physical Word
Physics and its law
Unit Physical quantities and their measurement
Scientific notation
Significant figure
Basic math Concept physics (Prerequisite)
Introduction to logarithms
The constant e and the nature logarithms
Slope
Basic of trigonometry
The unit of circle definition of sine ,cosine and tangent
The graph of sine ,cosine and tangent
Basic trigonometric identities
Evaluation function
Inputs and outputs of a function
Maximum and minimum points
Interval where a function is positive ,negative and increasing ,or..
Interpreting feature of graph
Differentiation for physics (Prerequisite)
Slope
Introduction to different calculus
Secant lines
Limits basis
Derivative as a limit
Using the formal definition of derivatives
Derivative as a function
Basic differentiation rule
Power rule
polynomial function differentiation
Sine & cosine derivatives
Product rule
chain rule
Integration to physics(Prerequisite)
Antiderivatives
Indefinite integral of common function
Definite integral of area
Riemann sums
Definite integral evaluation
u-substiution
Area & net change
Motion in straight line
Distance displacement and coordinate system
Average velocity and Average speed
Velocity and speed from graphs
Accelerations
Kinematic formulas
object in freefall
Rectilinear motion (integral calc)
Relative velocity 1D
Vector
vector basic
Magnitude of vectors
Combined vector operations
unit vectors
Magnitude and direction from of vector
Component of vector
Adding vector in magnitude and direction form
Application of vectors
Motion in a plane
Introduction to vectors and two -dimensional motion
Analyzing vectors using trigonometry
Review : Unit vectors
Graphs of projectile motion
Horizontally launched projectile
projectile launched at an angle
Projectile launched from/to a height
Projectile on an incline
Relative motion in 2D
Uniform circular motion introduction
Centripetal acceleration
Laws of motion
Introduction to force and freely body diagram
Newton ‘s first law : mass and inertia
Newton’s second law
Newton’s third law
Normal force and contact force
Balanced and unbalanced forces
Slow sock on Lubricon VI
Inclined planes
Frictions
Tensions
Treating systems
Centripetal forces problem solving
Introduction to linear momentum and impulse
Conversion of linear momentum and elastic collision
Collision in 2D
Work energy and power
Introduction to work
Kinetic work
work energy theorem
Gravitational potential energy and conservative forces
Spring potential energy and Hooke’s law
Conservation of energy
Work and energy problems involving friction
power
Elastic and inelastic collisions
System of particles and rotations motions
center of mass
Introduction to rotations motion
Angular Kinematics
Torque and equilibrium
Cross product and torque
Rotational inertia and angular second law
Rotational Kinetic energy ‘
Angular momentum and angular impulse
conservation of angular momentum
Gravitation
Newton ‘s law of gravitation
Gravitational potential energy at large distance
Mechanical properties of solid
stress, strain and modules of elasticity
shear and bulk stress
Application of elastic properties (Bonus)
Mechanical properties of fluid
density and pressure
Buoyant force and Archimedes ‘ principle
Fluid dynamics
Viscosity
surface tension
Thermal properties of matter
temperature , kinetic theory , and ideal gas law
Specific heat and heat transfer
Thermal expansion in solids
Thermal expansion in fluids
Thermal stress
Thermodynamics
Zeroth and first law of thermodynamics
work form PV graph and internal energy
Thermodynamics processes and Carnot cycle
Kinetic theory
Ideal gas equations
Kinetic molecular theory of gases
Oscillations
Introduction to simple harmonic motion
Simple harmonic motion in spring -mass system
simple pendulums
Energy in simple harmonic oscillators
Simple harmonic motion (with calculus)
waves
Introduction to waves
Wave characteristics
Wave interference
Standing waves
Sound
Beat and interference of sound waves
The Doppler effect
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