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Lapse rate exercise.ipynb
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Lecture01 -- Planetary energy budget.ipynb
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Lecture02 -- Solving the zero-dimensional EBM.ipynb
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Lecture03 -- Climate sensitivity and feedback.ipynb
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Lecture04 -- Intro to CLIMLAB.ipynb
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Lecture05 -- Climate system and climate models.ipynb
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Lecture06 -- Radiation.ipynb
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Lecture07 -- Elementary greenhouse models.ipynb
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Lecture08 -- Grey radiation modeling with climlab.ipynb
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Lecture09 -- Modeling non-scattering radiative transfer.ipynb
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Lecture10 -- Who needs spectral bands.ipynb
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Lecture11 -- Radiative-Convective Equilibrium.ipynb
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Lecture12 -- CESM climate sensitivity.ipynb
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Lecture13 -- TransientWarming.ipynb
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Lecture14 -- Clouds and cloud feedback.ipynb
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Lecture15 -- Insolation.ipynb
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Lecture16 -- Orbital variations.ipynb
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Lecture17 -- Heat transport.ipynb
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Lecture18 -- Diffusive energy balance model.ipynb
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Lecture19 -- Seasonal cycle and heat capacity.ipynb
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Lecture20 -- Numerical methods for diffusion models.ipynb
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Lecture21 -- Ice albedo feedback in the EBM.ipynb
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Lecture22 -- Snowball Earth in the EBM.ipynb
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Lecture23 -- The surface energy balance.ipynb
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Lecture24 -- LandOcean.ipynb
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Lecture25 -- Water, water everywhere!.ipynb
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LectureTemplate.ipynb
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observed_energy_budget.py
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