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Waves
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Polarization
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ΞπΈ Ξπ΄ ΞπΈ Ξπ΄ stays the same with increasing distance from source
decreases with increasing distance from source
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Reflection πΌ π½ πΌ=π½
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diffuse reflection specular reflection
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Refraction > < sin πΌβ π 1 = sin π½β π 2 sin πΌ sin π½ = π 1 π 2
n1 c1 n2 c2 < > Refraction sin πΌβ π 1 = sin π½β π 2 sin πΌ sin π½ = π 1 π 2
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Huygensβprinciple
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Soundwaves
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Problems: 8/4 and 8/10
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Termodynamics
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Heat capacity (C) and specific heat capacity(c)
πΆ= π Ξπ = π½ πΎ π= πΆ π = π½ ππβπΎ π=πβπβΞπ
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Phase transitions Specific latent heat πΏ= π π = π½ ππ
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Gas Laws ππ=ππ
π Boyleβs Law ππ= ππππ π‘πππ‘ πΌ π π = ππππ π‘πππ‘ πΌπΌ
Charleβs Law. π π = πππππ‘π ππ‘ πΌπΌπΌ Gay-Lussacβs Law π π = ππππ π‘πππ‘ πΌπ Avogadroβs Law π π β π π = π πΌπΌπΌ β π πΌπ π πΌπΌπΌ β π πΌπ = π π΅ =1,38β 10 β23 π½/πΎ ππ=ππ
π π= π π π΄ ππ=π π π΅ π (π π΅ β π π΄ =π
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isobaric process β pressure stays constant
isothermal process β temperature stays constant isochoric process β volume stays constant
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Problems: 9/7 Γ©s 9/12
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