Pearson Baccalaureate Physics Higher Level
Höfundur: Chris Hamper
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Pearson Baccalaureate Physics Higher Level 2nd EditionAnnað
- Höfundur: Chris Hamper
- Útgáfa:1
- Útgáfudagur: 20-07-2020
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- Hægt að afrita 2 bls.
- Format:Page Fidelity
- ISBN 13: 9781292371740
- ISBN 10: 1292371749
Efnisyfirlit
- Contents
- Introduction
- Chapter 1: Measurements and uncertainties
- 1.1: Measurements in physics
- Making observations
- Measurement
- Summary of SI units
- 1.2: Uncertainties and errors
- Uncertainty and error in measurement
- Errors in measurement
- Relationships
- 1.3: Vectors and scalars
- Vector and scalar quantities
- Addition of vectors
- Pythagoras
- Vectors in one dimension
- Subtracting vectors
- 1.1: Measurements in physics
- 2.1: Motion
- Displacement and distance
- Velocity and speed
- Acceleration
- The signs of displacement, velocity, and acceleration
- Free fall motion
- Acceleration of free fall
- Graphical representation of motion
- Projectile motion
- Projectile motion with air resistance
- 2.2: Forces
- Force (F)
- Newton’s first law of motion
- Types of force
- 2.3: Momentum and impulse
- The relationship between force and acceleration
- Newton’s second law of motion
- Newton’s third law of motion
- Collisions
- The law of the conservation of momentum
- Momentum and force
- Pressure (P)
- 2.4: Work, energy, and power
- Work
- Energy
- Forms of energy
- Energy and collisions
- Power
- 3.1: Thermal concepts
- The particle model of matter
- The three states of matter
- Internal energy
- Temperature (T)
- Heat transfer
- Thermal capacity (C )
- Specific heat capacity (c)
- Phase change
- Specifi c latent heat (L)
- Graphical representation of heating
- Measuring thermal quantities by the method of mixtures
- 3.2: Modelling a gas
- The ideal gas
- Defining the state of a gas
- Relationships between P, V, and T
- Boyle’s law (constant temperature)
- Pressure law (constant volume)
- Charles’ law (constant pressure)
- Avogadro’s hypothesis
- The ideal gas equation
- 4.1: Circular motion
- Quantities of circular motion
- Angular velocity and speed
- Centripetal acceleration
- Examples of circular motion
- 4.2: Gravitational field and orbits
- Gravitational force and field
- Gravitational field
- Gravitational potential in a uniform field
- Equipotentials and field lines
- Escape speed
- The solar system
- 5.1: Oscillations
- The simple pendulum
- Equations for SHM
- Graphical representation of SHM
- Representing SHM with circular motion
- Energy changes during simple harmonic motion (SHM)
- Graphical representation
- Phase
- 5.2: Waves and wave behaviour
- Wave pulse in a string
- Continuous wave in a string (transverse wave)
- Graphical representation of a transverse wave
- Standing waves in strings
- Stringed instruments
- Waves in a slinky spring (longitudinal waves)
- 5.3: Two-dimensional waves (water waves)
- Reflection of water waves
- Refraction of water waves
- Diffraction of water waves
- Interference of water waves
- 5.4: Sound waves
- Properties of sound waves
- Standing waves in closed pipes
- Standing waves in open pipes
- The Doppler effect
- 5.5: Light waves
- The electromagnetic spectrum
- Refraction of light
- Dispersion
- Diffraction of light at a single slit
- Resolution
- Interference of light
- Multiple-slit diffraction
- Thin film interference
- The Doppler effect and EM radiation
- Polarization of light
- 6.1: Electric fields
- Electric force
- Charge (Q)
- Electric field
- Coulomb’s law
- Potential (V)
- 6.2: Electric current
- Movement of charge
- Ohm’s law
- 6.3: Electric circuits
- Electric cells and batteries
- Simplest circuit
- Electrical power
- Combinations of components
- Electrical measurement
- 6.4: Magnetic effects of electric currents
- Magnetic field
- Field caused by currents
- Definition of the ampere
- Charges in magnetic fields
- 6.5: Electromagnetic induction
- Conductor moving in a magnetic field
- Faraday’s law
- Lenz’s law
- 6.6: Power generation and transmission
- Coil rotating in a uniform magnetic field
- Power in AC circuits
- Rectification
- 6.7: Capacitance
- Capacitors in series
- Capacitors in parallel
- Energy stored in a capacitor
- 7.1: Discrete energy and the interaction of matter with radiation
- The arrangement of charge in the atom
- The Rutherford model
- The connection between atoms and light
- The quantum nature of light
- The wave nature of matter
- 7.2: Properties of the nucleus and radioactivity
- Charge and mass
- Size of the nucleus
- The nuclear force
- Binding energy
- Radioactive decay
- Untitled
- Nuclear fusion
- Nuclear fission
- 7.3: The structure of matter
- Classifying particles
- Exchange forces
- Electromagnetic force
- Feynman diagrams
- Baryons and mesons
- Quarks
- Feynman diagrams for strong interactions
- Weak interactions
- The standard model
- 8.1: Energy production
- Energy sources
- Fuels
- Generating electricity
- Nuclear power
- The nuclear power station
- Solar power
- Hydroelectric power
- Wind power
- The wind turbine
- Wave power
- Generating electricity from water waves
- Tidal power
- World energy usage
- 8.2: Global thermal energy transfer
- Energy from the Sun
- Radiation from the Sun
- Interaction between solar radiation and the atmosphere
- Radiation reaching the Earth
- Energy balance
- Earth with atmosphere
- Global warming
- 9.1: The beginnings of relativity
- Reference frames
- Galilean relativity
- The nature of light
- 9.2: Lorentz transformations
- The two postulates of special relativity
- Lorentz transformations
- The muon experiment
- Space–time interval
- 9.3: Space–time diagrams
- Frames of reference in space–time diagrams
- The twin paradox
- 9.4: Relativistic mechanics
- Simplifying the units (MeV)
- Neutral pion decay
- Pair production
- 9.5: General relativity
- The equivalence principle
- Gravitational mass and inertial mass
- Curvature in space–time
- Black holes
- General relativity and the Universe
- Curvature and the future of the Universe
- 10.1: Rigid bodies and rotational dynamics
- Rotational motion
- Equilibrium
- Non-perpendicular forces
- Constant angular acceleration
- Newton’s second law applied to angular motion
- Some common shapes and their moments of inertia
- Angular momentum (L)
- 10.2: Thermodynamics
- Thermodynamic systems
- The first law of thermodynamics
- Constant pressure compression (isobaric)
- Cyclic processes
- The second law of thermodynamics
- 10.3: Fluids and their dynamics
- Static fluids
- Fluid pressure
- Fluid dynamics
- The continuity equation
- The Bernoulli equation
- Real fluids
- 10.4: Forced vibration and resonance
- Damped harmonic motion
- The Q factor
- Forced vibration
- Resonance
- 11.1: Introduction to imaging
- Lenses
- Objects and images
- Image formation in convex lenses
- Image formation in concave lenses
- The lens formula
- The human eye
- The magnifying glass
- Angular magnification (M)
- Lens aberrations
- Spherical mirrors
- The mirror formula
- 11.2: Imaging instrumentation
- The optical compound microscope
- The astronomical telescope
- The reflecting telescope
- 11.3: Fibre optics
- Fibre optic basics
- The ophthalmoscope
- Optical fibres and digital communication
- Attenuation
- 11.4: Medical imaging
- Detection and recording of X-ray images
- Producing an X-ray image
- Further improvements
- Ultrasound
- Nuclear magnetic resonance (NMR)
- 12.1: Stellar quantities
- The view from here
- Astronomical distances
- EM radiation from stars
- 12.2: Stellar characteristics
- Stellar spectra
- 12.3: Stellar evolution
- The birth of a star
- Main sequence
- After the main sequence
- 12.4: Cosmology
- The cosmological principle
- Critical density (ρc)
- The expanding Universe
- The BIG Bang
- The early development of the Universe
- The scientific method
- Theories must be falsifiable
- Paradigm shifts
- Use of language
- Laws
- Sense and perception
- Imagination
- Physics or intuition?
- Peer review
- Ethics and physics
- A hands-on laboratory investigation
- Spreadsheet analysis and modelling
- Databases
- Simulations
- Assessment criteria
- Choosing a topic
- The research question
- Performing the practical work
- Research
- Writing the essay
- What can go wrong
- Extended Essay assessment
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- Gerð : 208
- Höfundur : 15283
- Útgáfuár : 2020
- Leyfi : 380
