Содержимое курса
Physical quantities and Units
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SI units
23:16
Errors and Uncertainties
00:00
Adding uncertainties
00:00
Scalars and Vectors
00:00
Operations on vectors
Kinematics
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Kinematics
Equations of motion
Free fall
Projectile motion
Dynamics
0/7
Forces
Dynamics
Newton’s law
Weight
Non-uniform motion
Momentum. Conservation of momentum
Elastic and inelastic collision
Forces, density and pressure
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Forces, density and pressure
Work. Power. Energy
00:00
Moment of a force.
Torque
Equilibrium of forces
Density and pressure
Work. Power
Energy
Conservation of the energy
Efficiency
Archimedes’ principle
Deformation of solids
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Deformation of solids
Deformation of Solids//practice
03:33
Energy of Deformation
Stress and Strain
Waves
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Waves 1
Transverse and longitudinal waves
Doppler effect for sound waves
Electromagnetic spectrum
Superposition
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Superposition
Stationary waves
Applications of Stationary waves
Diffraction
Interference
Double-Slit interference. Diffraction grating
D.C. circuits
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Electricity
Potential difference
Power
Resistance
LDR and Thermistors
Practical circuits
Electromotive force
Kirchhoff’s laws
Parallel and Series connection of circuits
Particle physics
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Nucleus
Radiation
Fundamental particles. Hadrons.
β– and β+ decay and Leptons
Motion in a circle
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Circular motion
Centripetal acceleration
Gravitational fields
0/4
Gravitational field
00:00
Gravitational fields
Orbits and Satellires
00:00
Gravitational potential
Temperature
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Temperature
Temperature
Specific heat capacity and latent heat
Ideal gases
0/6
Ideal gases
Gas pressure
The first law of thermodynamics
2nd Law of Thermodynamics
Carnot cycle
Internal energy
Oscillations
0/3
Oscillations
Energy in simple harmonic motion
Damped and forced oscillation. Resonance
Electric fields
0/4
Electric fields
Electric potential
Electrical potential energy
Superposition of electric fields
Capacitance
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Capacitance
Capacitors in series and in parallel
Energy stored in a capacitor Discharging a capacitor
Magnetic fields
0/4
Magnetic fields
Force on a current-carrying conductor
Force on a moving charge
Magnetic flux linkage
Alternating currents
0/4
Characteristics of alternating currents
RMS Value for AC
Power
Rectification
Quantum physics
0/6
Quantum physics
Energy and momentum of a photon
Photoelectric effect
Photoelectric effect equation
Wave-particle duality
Energy levels in atoms and line spectra
Nuclear physics
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Nuclear physics
Mass defect
Nuclear binding energy
Nuclear fusion and nuclear fission
Radioactive decay
Half-life
Radioactivity
Additional and Extra materials
Here you can find different useful links, books and worksheets
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Links
Lesson objectives 11-12 Grade
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Star’s luminosity
Standard candles
Stellar radii
Hubble’s law and The Big Bang theory
General physics
    Solution9. Investigation10. Group Activity11. Individual Work12. Resources13. Reflection
    Answer
    d = 1/600×103 m = 1.667×10−6 m; sin θ = λ/d = 0.39 ⇒ θ ≈ 23°.
    🧪 Interactive Investigation

    Use PhET “Wave Interference” to explore two‐source interference in water:


    Investigation Answers
    Observe nodal & antinodal lines; measure spacing to confirm Δ = nλ.
    👥 Collaborative Group Activity

    In groups, design a simple microwave interference experiment (using slits and a detector) and report measured λ.

    📝 Individual Assessment
    1. Explain why coherence is essential for stable interference fringes.
    2. Calculate fringe width for red light (λ=700 nm), a=0.3 mm, D=1.5 m.
    3. Determine second‐order angle for λ=500 nm on a 300 lines/mm grating.
    4. Discuss the effect of finite slit width on fringe contrast.
    5. Design an experiment to measure λ of a laser using double‐slit and grating methods; compare results.
    🔗 Additional Learning Resources
    🤔 Lesson Reflection
    • Which interference experiment did you find most intuitive and why?
    • How does slit separation affect fringe spacing?
    • What practical limitations did you observe in your investigations?
    • Set one goal to improve accuracy in wavelength measurement.
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