American (US)

The SAT is a college board administered entrance exam that is recognized by most colleges and universities in the US and abroad for college admission decisions. The exam assesses the high school students’ readiness to join the college with a common data point as a reference for all applicants.

The ACT® test motivates students to perform to their best ability. Test scores reflect what students have learned throughout high school and provide colleges and universities with excellent information for recruiting, advising, placement, and retention.

Many times, students who are not considering higher education rethink their plans when they see their ACT test results. This is especially true for underrepresented students. To support college and career planning, the ACT also offers a career exploration component to help students identify career options.

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)

As education evolves, mydrasa is at the forefront, shaping tomorrow's schooling experience.

Start a tutor account Join our Students Community

Subscribe to our
Newsletter

Don't miss any news. We will also notify you with new features as they are launched.