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SUbjects

Subjects

SAT - Physics

  • Overview
  • Chapters
  • The Physics Subject Test assesses your understanding of concepts from one year of introductory physics on the college-preparatory level, as well as reasoning and problem-solving skills derived from lab experience.
  • If you’re thinking about pursuing a math- or science-based program of study (such as science, technology, engineering, or math), taking the Physics Subject Test is a great way to demonstrate your interests on your college application.


  • 1: Introduction
    1.1: Introduction
    1.1.1: Test Contents
    1.1.2: Questions Types
  • 2: Measurements
    2.1: Basic and Derived Quantities
    2.1.1: Basic and Derived Quantities
    2.2: Graphical Techniques
    2.2.1: Graphical Techniques
    2.3: Laws of exponents
    2.3.1: Laws of exponents
    2.4: Unit conversions
    2.4.1: Converts units
  • 3: Vectors
    3.1: Adding and subtracting vectors graphically
    3.1.1: Adding Vectors graphically
    3.1.2: Subtract Vectors graphically
    3.1.3: Multiplying a Vector with a scalar quantity
    3.2: Resolving vectors into components
    3.2.1: Resolving Vectors into components
    3.3: Adding vectors mathematically
    3.3.1: Adding vectors mathematically
    3.4: Full Practice (Solving problems) Ch.2-3
    3.4.1: Full practice (Ch. 2 & 3 )
  • 4: One–Dimensional motion
    4.1: Average versus instantaneous motion
    4.1.1: Distance and Displacement
    4.1.2: Average speed, velocity ,acceleration, and instantaneous velocity
    4.2: Motion graphs
    4.2.1: Distance versus Time Graph
    4.2.2: Velocity versus Time Graph
    4.3: Kinematic equations
    4.3.1: Kinematic Equations
    4.4: Free falling objects
    4.4.1: Free falling objects
  • 5: Two-Dimensional motion
    5.1: Relative motion
    5.1.1: Relative Motion
    5.2: Projectile motion
    5.2.1: Projectiles launched at an angle
    5.2.2: Projectiles launched horizontally
    5.3: Full practice (Ch 4 ,5 )
    5.3.1: Full practice ( Ch 4,5)
  • 6: Forces and the laws of motion
    6.1: Force and the nature of force
    6.1.1: Force and the Nature of Force
    6.2: Newton's laws
    6.2.1: Newton's first law
    6.2.2: Tension force problems
    6.2.3: Newton's second law
    6.2.4: Free body diagram
    6.2.5: Pulley system problems
    6.2.6: Inclined surface
    6.2.7: The sensation of weight and weightlessness
    6.2.8: Newton's third law
    6.3: Full Practice (ch 6)
    6.3.1: Full Practice (ch 6)
  • 7: Work, Energy, and Power
    7.1: Work, energy ,and power
    7.1.1: Work
    7.1.2: Kinetic Energy
    7.1.3: Potential energy
    7.1.4: Power
    7.1.5: Elastic Force and Elastic Potential Energy
    7.2: Full Practice (ch 7)
    7.2.1: Full Practice (ch 7)
  • 8: Momentum ,Impulse ,and Collision
    8.1: Momentum and Impulse
    8.1.1: Momentum and Impulse
    8.1.2: Law of Conservation of Momentum
    8.2: Types of collision
    8.2.1: Inelastic Collision and Elastic Collision
    8.3: Full Practice (ch. 8)
    8.3.1: Full Practice (ch. 8)
  • 9: Circular motion and Gravitation
    9.1: Circular motion
    9.1.1: Circular motion
    9.1.2: Centripetal force and Acceleration
    9.2: Gravitational force and gravitational field
    9.2.1: Gravitational force and Gravitational field
    9.3: Kepler's laws
    9.3.1: Kepler's law of motion
    9.4: Rotational motion
    9.4.1: Center of mass and torque
    9.5: Full Practice (Ch 9)
    9.5.1: Full Practice (Ch 9)
  • 10: Full Practice (Mechanics )
    10.1: Full Practice (Mechanics)
    10.1.1: Full Practice ( Mechanics)
  • 11: Heat and Temperature
    11.1: Temperature and kinetic energy
    11.1.1: Temperature and kinetic energy
    11.2: Expansion and contraction
    11.2.1: Expansion and Contraction
    11.3: Gas law
    11.3.1: Gas Laws
  • 12: Heat and Work
    12.1: First law of thermodynamics
    12.1.1: First law of Thermodynamics
    12.1.2: Thermodynamic process
    12.1.3: Heat engines
    12.2: Method of transferring heat
    12.2.1: Method of Transferring Heat and Entropy
  • 13: Measurement of Heat
    13.1: Specific heat capacity
    13.1.1: Specific Heat Capacity
    13.2: Latent heat
    13.2.1: Latent Heat
    13.2.2: Evaporation versus Boiling
    13.3: Full Practice (Heat and Thermodynamics)
    13.3.1: Full Practice (Heat and Thermodynamics)
  • 14: Wave motion and Sound
    14.1: Types of Waves
    14.1.1: Mechanical and Longitudinal wave
    14.1.2: Reflected wave at a free or a fixed boundary
    14.2: Simple harmonic motion
    14.2.1: Simple Harmonic Motion
    14.3: Standing wave
    14.3.1: Sound
    14.3.2: Standing Wave
    14.4: Harmonics
    14.4.1: Standing Wave in a Vibrating String
    14.4.2: Standing wave in an air column closed at one end
    14.4.3: Standing wave in air column opened at both ends
    14.4.4: Timber and Beats
    14.5: Doppler effect
    14.5.1: Doppler effect
    14.6: Sound intensity
    14.6.1: Sound Intensity
  • 15: Reflection and Refraction
    15.1: Reflection of light
    15.1.1: Characteristics of Light
    15.1.2: Laws of Reflection
    15.1.3: Image formed in flat mirror
    15.1.4: Image formed in concave mirror
    15.1.5: Image formed in convex mirror
    15.2: Refraction of light
    15.2.1: Law of Refraction
    15.2.2: Snell's law
    15.2.3: Total Reflection and Critical Angle
    15.2.4: Image formed in convex lens
    15.2.5: Image formed in concave lens
    15.2.6: Types of Spectrum
    15.2.7: Doppler effect of light
  • 16: Interference and Diffraction
    16.1: Interference
    16.1.1: Double slit experiment
    16.1.2: Thin film interference
    16.2: Diffraction
    16.2.1: Single Slit experiment
    16.3: Polarization
    16.3.1: Polarization
    16.4: Full practice ( Wave)
    16.4.1: Full practice ( Wave)
  • 17: Electricity
    17.1: The Nature of Electric Charges
    17.1.1: Transfer electric charges
    17.2: Method of charging(conduction-induction-friction)
    17.2.1: Method of Charging (Conduction - Induction - Friction)
    17.2.2: Electroscope
    17.3: Electric force and electric field
    17.3.1: Electric Force
    17.3.2: Electric Field
    17.4: Electric potential energy
    17.4.1: Electric Potential Energy
    17.5: Capacitor
    17.5.1: Capacitor
    17.6: Current and resistance
    17.6.1: Electric Current
    17.6.2: Resistance
    17.6.3: Electric Power
    17.7: Resistor connection
    17.7.1: Resistors in series
    17.7.2: Resistors in Parallel
    17.7.3: Complex Resistor Combinations
    17.8: Full Practice (Electricity)
    17.8.1: Full Practice (Electricity)
  • 18: Magnetism
    18.1: Magnets and magnetic fields
    18.1.1: Magnets and Magnetic Fields
    18.2: Magnetism form electricity
    18.2.1: Magnetic field in a current carrying wire
    18.2.2: Solenoid Magnetic Field
    18.3: Magnetic force
    18.3.1: Magnetic Force on a Charge moving in a Magnetic Field
    18.3.2: Magnetic Force on a Current carrying Conductor
    18.3.3: Magnetic Force between two wires carrying current
    18.4: Electrical measuring instruments
    18.4.1: Galvanometer, Ammeter, and Voltmeter
    18.5: Electromagnetic induction
    18.5.1: Faraday's law of Magnetic Induction
    18.5.2: Lenz's law
    18.5.3: Electromotive force produced in a wire moving in a magnetic field
    18.5.4: Mutual Induction
    18.5.5: Transformer
    18.6: Full Practice (Magnetism)
    18.6.1: Full Practice (Magnetism)
  • 19: Quantum Theory and Nuclear Physics
    19.1: The photo electric effect
    19.1.1: The Photo Electric Effect
    19.2: Compton effect
    19.2.1: Compton Effect
    19.3: Atomic models
    19.3.1: Rutherford Model
    19.3.2: Bohr Model
    19.3.3: De Broglie Wavelength
    19.3.4: The Uncertainty principle
    19.4: Subatomic physics
    19.4.1: Isotopes
    19.4.2: Binding energy
    19.4.3: Nuclear Force
    19.4.4: Radioactive decay
    19.4.5: Half life
    19.4.6: Nuclear reactions
    19.4.7: Elementary particles
    19.5: Full Practice (Quantum Theory and Nuclear Physics)
    19.5.1: Full Practice (Quantum Theory and Nuclear Physics)
  • 20: Special Relativity
    20.1: Postulates of special relativity
    20.1.1: Postulates of special relativity
  • 21: Full Practice
    21.1: Full Practice (Real & Practice Exams)
    21.1.1: Full Practice (Real & Practice Exams)

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