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Oxford IB Study Guides: Physics for the IB Diploma 2014th Revised edition [Pehme köide]

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  • Formaat: Paperback / softback, 232 pages, kõrgus x laius x paksus: 297x210x13 mm, kaal: 612 g, B/W, Contains 1 Paperback / softback
  • Sari: Oxford IB Study Guides
  • Ilmumisaeg: 04-Sep-2014
  • Kirjastus: Oxford University Press
  • ISBN-10: 0198393555
  • ISBN-13: 9780198393559
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Oxford IB Study Guides: Physics for the IB Diploma 2014th Revised editionSuurem pilt
  • Formaat: Paperback / softback, 232 pages, kõrgus x laius x paksus: 297x210x13 mm, kaal: 612 g, B/W, Contains 1 Paperback / softback
  • Sari: Oxford IB Study Guides
  • Ilmumisaeg: 04-Sep-2014
  • Kirjastus: Oxford University Press
  • ISBN-10: 0198393555
  • ISBN-13: 9780198393559
Teised raamatud teemal:
Teised raamatud sellest sooduspakkumisest: Valik IB Diploma õppematerjale 15% allahindlusega
Püsilink: https://www.kriso.ee/db/9780198393559.html
Märksõnad:
This comprehensive Study Guide reinforces all the key concepts for the 2014 syllabus, ensuring students develop a clear understanding of all the crucial topics at SL and HL. Breaking concepts down into manageable sections and with diagrams and illustrations to cement understanding, exam preparation material is integrated to build student confidence and assessment potential. Directly linked to the Oxford Physics Course Book to extend and sharpen comprehension, this book supports maximum achievement in the course and assessment.

·Concise and focused approach simplifies complex ideas, building truly confident understanding ·Clear and explanatory style uses plenty of visuals to make each concept accessible, easing comprehension ·Build a strong foundation of assessment skills, strengthening potential with integrated exam questions ·Develop assessment confidence, drawing on thorough assessment support and advice ·Clear and straightforward language helps EAL learners focus on the Physics

About the series: Reinforce student understanding of all the crucial subject material. Fully comprehensive and matched to the most recent syllabuses, these resources provide focused review of all important concepts, tangibly strengthening assessment potential.

Muu info

Build unrivalled assessment potential
1 Measurement and Uncertainties
The realm of physics -- range of magnitudes of quantities in our universe
1(1)
The SI system of fundamental and derived units
2(1)
Estimation
3(1)
Uncertainties and error in experimental measurement
4(1)
Uncertainties in calculated results
5(1)
Uncertainties in graphs
6(1)
Vectors and scalars
7(1)
IB Questions -- measurement and uncertainties
8(1)
2 Mechanics
Motion
9(1)
Graphical representation of motion
10(1)
Uniformly accelerated motion
11(1)
Projectile motion
12(1)
Fluid resistance and free-fall
13(1)
Forces and free-body diagrams
14(1)
Newton's first law
15(1)
Equilibrium
16(1)
Newton's second law
17(1)
Newton's third law
18(1)
Mass and weight
19(1)
Solid friction
20(1)
Work
21(1)
Energy and power
22(1)
Momentum and impulse
23(1)
IB Questions -- mechanics
24(1)
3 Thermal Physics
Thermal concepts
25(1)
Heat and internal energy
26(1)
Specific heat capacity
27(1)
Phases (states) of matter and latent heat
28(1)
The gas laws 1
29(1)
The gas laws 2
30(1)
Molecular model of an ideal gas
31(1)
IB Questions -- thermal physics
32(1)
4 Waves
Oscillations
33(1)
Graphs of simple harmonic motion
34(1)
Travelling waves
35(1)
Wave characteristics
36(1)
Electromagnetic spectrum
37(1)
Investigating speed of sound experimentally
38(1)
Intensity
39(1)
Superposition
40(1)
Polarization
41(1)
Uses of polarization
42(1)
Wave behaviour -- Reflection
43(1)
Snell's law and refractive index
44(1)
Refraction and critical angle
45(1)
Diffraction
46(1)
Two-source interference of waves
47(1)
Nature and production of standing (stationary) waves
48(1)
Boundary conditions
49(1)
IB Questions -- waves
50(1)
5 Electricity and Magnetism
Electric charge and Coulomb's law
51(1)
Electric fields
52(1)
Electric potential energy and electric potential difference
53(1)
Electric current
54(1)
Electric circuits
55(1)
Resistors in series and parallel
56(1)
Potential divider circuits and sensors
57(1)
Resistivity
58(1)
Example of use of Kirchoff's laws
59(1)
Internal resistance and cells
60(1)
Magnetic force and fields
61(1)
Magnetic forces
62(1)
Examples of the magnetic field due to currents
63(1)
IB Questions -- electricity and magnetism
64(1)
6 Circular Motion and Gravitation
Uniform circular motion
65(1)
Angular velocity and vertical circular motion
66(1)
Newton's law of gravitation
67(1)
IB Questions -- circular motion and gravitation
68(1)
7 Atomic, Nuclear and Particle Physics
Emission and absorption spectra
69(1)
Nuclear stability
70(1)
Fundamental forces
71(1)
Radioactivity 1
72(1)
Radioactivity 2
73(1)
Half-life
74(1)
Nuclear reactions
75(1)
Fission and fusion
76(1)
Structure of matter
77(1)
Description and classification of particles
78(1)
Quarks
79(1)
Feynman diagrams
80(1)
IB Questions -- atomic, nuclear and particle physics
81(1)
8 Energy Production
Energy and power generation -- Sankey diagram
82(1)
Primary energy sources
83(1)
Fossil fuel power production
84(1)
Nuclear power -- process
85(1)
Nuclear power -- safety and risks
85(2)
Solar power and hydroelectric power
87(1)
Wind power and other technologies
88(1)
Thermal energy transfer
89(1)
Radiation: Wien's law and the Stefan--Boltzmann law
90(1)
Solar power
91(1)
The green house effect
92(1)
Global warming
93(1)
IB Questions -- energy production
94(1)
9 Wave Phenomena
Simple harmonic motion
95(1)
Energy changes during simple harmonic motion
96(1)
Diffraction
97(1)
Two-source interference of waves: Young's double-slit experiment
98(1)
Multiple-slit diffraction
99(1)
Thin parallel films
100(1)
Resolution
101(1)
The Doppler effect
102(1)
Examples and applications of the Doppler effect
103(1)
IB Questions -- wave phenomena
104(1)
10 Fields
Potential [ gravitational and electric]
105(1)
Equipotenttals
106(1)
Gravitational potential energy and potential
107(1)
Orbital motion
108(1)
Electric potential energy and potential
109(1)
Electric and Gravitational Fields compared
110(1)
IB Questions -- fields
111(1)
11 Electromagnetic Induction
Induced electromotive force [ emf]
112(1)
Lenz's law and Faraday's law
113(1)
Alternating current (1)
114(1)
Alternating current {2}
115(1)
Rectification and smoothing circuits
116(1)
Capacitance
117(1)
Capacitor discharge
118(1)
Capacitor charge
119(1)
IB Questions -- electromagnetic induction
120(1)
12 Quantum and Nuclear Physics
Photoelectric effect
121(1)
Matter waves
122(1)
Atomic spectra and atomic energy states
123(1)
Bohr model of the atom
124(1)
The Schrodinger model of the atom
125(1)
The Heisenberg uncertainty principle and the loss of determinism
126(1)
Tunnelling, potential barrier and factors affecting tunnelling probability
127(1)
The nucleus
128(1)
Nuclear energy levels and radioactive decay
129(1)
IB Questions -- quantum and nuclear physics
130(1)
13 Option A -- Relativity
Reference frames
131(1)
Maxwell's equations
132(1)
Special relativity
133(1)
Lorentz transformations
134(1)
Velocity addition
135(1)
Invariant quantities
136(1)
Time dilation
137(1)
Length contraction and evidence to support special relativity
138(1)
Spacetime diagrams (Minkowski diagrams) 1
139(1)
Spacetime diagrams 2
140(1)
The twin paradox 1
140(1)
Twin paradox 2
141(1)
Spacetime diagrams 3
142(1)
Mass and energy
143(1)
Relativistic momentum and energy
144(1)
Relativistic mechanics examples
145(1)
General relativity -- the equivalence principle
146(1)
Gravitational red shift
147(1)
Supporting evidence
148(1)
Curvature of spacetime
149(1)
Black holes
150(1)
IB Questions -- option A -- relativity
151(1)
14 Option B -- Engineering Physics
Translational and rotational motion
152(1)
Translational and rotational relationships
153(1)
Translational and rotational equilibrium
154(1)
Equilibrium examples
155(1)
Newton's second law -- moment of inertia
156(1)
Rotational dynamics
157(1)
Solving rotational problems
158(1)
Thermodynamic systems and concepts
159(1)
Work done by an ideal gas
160(1)
The first law of thermodynamics
161(1)
Second law of thermodynamics and entropy
162(1)
Heat engines and heat pumps
163(1)
Fluids at rest
164(1)
Fluids in motion -- Bernoulli effect
165(1)
Bernoulli -- examples
166(1)
Viscosity
167(1)
Forced oscillations and resonance [ 1]
168(1)
Resonance [ 2]
169(1)
IB Questions -- option B -- engineering physics
170(1)
15 Option C -- Imaging
Image formation
171(1)
Converging tenses
172(1)
Image formation in convex lenses
173(1)
Thin tens equation
174(1)
Diverging lenses
175(1)
Converging and diverging mirrors
176(1)
The simple magnifying glass
177(1)
Aberrations
178(1)
The compound microscope and astronomical telescope
179(1)
Astronomical reflecting telescopes
180(1)
Radio telescopes
181(1)
Fibre optics
182(1)
Dispersion, attenuation and noise in optical fibres
183(1)
Channels of communication
184(1)
X-rays
185(1)
X-ray imaging techniques
186(1)
Ultrasonic imaging
187(1)
Imaging continued
188(1)
IB Questions -- option C -- imaging
189(1)
16 Option D -- Astrophysics
Objects in the universe (1)
190(1)
Objects in the universe (2)
191(1)
The nature of stars
192(1)
Stellar parallax
193(1)
Luminosity
194(1)
Stellar spectra
195(1)
Nucleosynthesis
196(1)
The Hertzsprung--Russell diagram
197(1)
Cepheid variables
198(1)
Red giant stars
199(1)
Stellar evolution
200(1)
The Big Bang model
201(1)
Galactic motion
202(1)
Hubble's law and cosmic scale factor
203(1)
The accelerating universe
204(1)
Nuclear fusion -- the Jeans criterion
205(1)
Nucleosynthesis off the main sequence
206(1)
Types of supernovae
207(1)
The cosmological principle and mathematical models
208(1)
Rotation curves and dark matter
209(1)
The history of the Universe
210(1)
The future of the Universe
211(1)
Dark energy
212(1)
Astrophysics research
213(1)
IB Questions -- astrophysics
214(1)
17 Appendix
Graphs
215(1)
Graphical analysis and determination of relationships
216(1)
Graphical analysis -- logarithmic functions
217(1)
Answers 218(1)
Origin of Individual Questions 218(1)
Index 219