Explores climate definitions, snow feedback mechanisms, past climate variations, and future projections on air temperature, precipitation, and sea level, emphasizing the impacts and adaptations required.
Explores radiative forcing, climate sensitivity, and feedback mechanisms in climate change, emphasizing the role of various components like CO2 and methane.
Explores specular view factors and radiative exchange between partially-specular gray surfaces, including energy transfer rates and non-gray surface exchange.
Explores the evolution of climate models and the latest IPCC findings on climate sensitivity, including ECS estimation and constraints from observations and paleoclimate records.
Explores predicting climate change through linear response operators, focusing on the nonequilibrium nature of the climate system and the challenges of climate predictability.
Explores radiative heat transfer principles in the presence of conduction and convection, covering surface exchange, coupled heat transfer, thermocouples, and gas flow.
Delves into extreme weather events, their definitions, causes, and consequences, emphasizing the importance of understanding climate change in relation to these occurrences.
Explores the efficiency of phase change processes, focusing on evaporation and boiling, differentiating between the two and discussing the various regimes of pool boiling.
