Nickell, S. (1981). Biases in dynamic models with fixed effects. Econometrica, 1417–1426. NOAA. (2021). National Centers for Environmental Information, Monthly Global Climate Report for Annual 2021 (tech. rep.). Nybo, L., Rasmussen, P., & Sawka, M. (2014). Performance in the Heat-Physiological Factors of Importance for Hyperthermia-Induced Fatigue. Comprehensive Physiology, 4, 657–89. Obradovich, N., Migliorini, R., Mednick, S. C., & Fowler, J. H. (2017). Nighttime temperature and human sleep loss in a changing climate [Publisher: American Association for the Advancement of Science]. Science Advances, 3(5), e1601555. Palacios, J., Eichholtz, P., & Kok, N. (2020). Moving to productivity: The benefits of healthy buildings. PLOSOne, 15(8), e0236029. Palacios, J., Eichholtz, P., Kok, N., & Duran, N. (2022). Indoor air quality and learning: Evidence from a large field study in primary schools. Palmore, E., & Luikart, C. (1972). Health and social factors related to life satisfaction. Journal of Health and Social Behavior, 68–80. Park, R. J. (2022). Hot Temperature and High-Stakes Performance. Journal of Human Resources, 57(2), 400–434. Park, R. J., Behrer, A. P., & Goodman, J. (2021). Learning is inhibited by heat exposure, both internationally and within the United States. Nature Human Behaviour, 5(1), 19–27. Park, R. J., Goodman, J., Hurwitz, M., & Smith, J. (2020). Heat and Learning. American Economic Journal: Economic Policy, 12(2), 306–339. Passaretta, G., & Skopek, J. (2018a). From birth to the end of compulsory school – social and migration-related achievement in253
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