Trend of mental health-related services utilization between 2016 and 2022. by Fernanda Talarico (807333)

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Comparison of mental health-related services utilization between the pre (2016–2019) and post (2020–2022) pandemic onset periods. by Fernanda Talarico (807333)

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Trend of all service utilization for all conditions between 2016 and 2022. by Fernanda Talarico (807333)

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Transition probabilities and class sizes for three-step LTA model (N = 432). by Carolin Oetzmann (11397968)

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Decreased expression of tight junction proteins and disruption of intestinal barrier integrity in DSS-induced colitis mouse model. by Mariam Wed Eladham (21439745)

Summary of data sources. by Xu Tong (8099873)

“…Studies have shown that between 2000 and 2023, soil erosion intensity in this area has decreased. However, erosion intensity increases from southwest to northeast, with particularly severe erosion near the Tongmai Grand Bridge and Polong Gou Grand Bridge. …”

Study area transportation location map. by Xu Tong (8099873)

“…Studies have shown that between 2000 and 2023, soil erosion intensity in this area has decreased. However, erosion intensity increases from southwest to northeast, with particularly severe erosion near the Tongmai Grand Bridge and Polong Gou Grand Bridge. …”

Map of soil erosion trends. by Xu Tong (8099873)

“…Studies have shown that between 2000 and 2023, soil erosion intensity in this area has decreased. However, erosion intensity increases from southwest to northeast, with particularly severe erosion near the Tongmai Grand Bridge and Polong Gou Grand Bridge. …”

Criteria for assigning values to C and P. by Xu Tong (8099873)

“…Studies have shown that between 2000 and 2023, soil erosion intensity in this area has decreased. However, erosion intensity increases from southwest to northeast, with particularly severe erosion near the Tongmai Grand Bridge and Polong Gou Grand Bridge. …”

The percentage of studies that resulted in insect death increased over time. by Craig D. Perl (3326880)

“…<p>There was a significant increase in the proportion of studies containing insect death (with or without handling) over time (linear regression; t_20,18 = 2.33, p = 0.031, R² = 0.23). …”

Fig 5 - by Varun Tiwari (9258130)

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Fig 1 - by Varun Tiwari (9258130)

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A schematic view of ACS. by Mohammed Qasim Shaheen (21417079)

“…The results show a COP of 0.79 with a cooling capacity of 5 kW at generator, condenser, evaporator, and absorber temperatures of (90, 40, 10, and 35), respectively. The COP increases as the evaporator temperature increases, and it decreases as the condenser and absorber temperature increases. …”

Assumed conditions. by Mohammed Qasim Shaheen (21417079)

“…The results show a COP of 0.79 with a cooling capacity of 5 kW at generator, condenser, evaporator, and absorber temperatures of (90, 40, 10, and 35), respectively. The COP increases as the evaporator temperature increases, and it decreases as the condenser and absorber temperature increases. …”

Shows the amount of emission reductions. by Mohammed Qasim Shaheen (21417079)

“…The results show a COP of 0.79 with a cooling capacity of 5 kW at generator, condenser, evaporator, and absorber temperatures of (90, 40, 10, and 35), respectively. The COP increases as the evaporator temperature increases, and it decreases as the condenser and absorber temperature increases. …”

Comparison COP of our study with Florides et al. by Mohammed Qasim Shaheen (21417079)

“…The results show a COP of 0.79 with a cooling capacity of 5 kW at generator, condenser, evaporator, and absorber temperatures of (90, 40, 10, and 35), respectively. The COP increases as the evaporator temperature increases, and it decreases as the condenser and absorber temperature increases. …”

Effect of generator temperature on COP. by Mohammed Qasim Shaheen (21417079)

“…The results show a COP of 0.79 with a cooling capacity of 5 kW at generator, condenser, evaporator, and absorber temperatures of (90, 40, 10, and 35), respectively. The COP increases as the evaporator temperature increases, and it decreases as the condenser and absorber temperature increases. …”

Emission factors. by Mohammed Qasim Shaheen (21417079)

“…The results show a COP of 0.79 with a cooling capacity of 5 kW at generator, condenser, evaporator, and absorber temperatures of (90, 40, 10, and 35), respectively. The COP increases as the evaporator temperature increases, and it decreases as the condenser and absorber temperature increases. …”

Magnitude of emission reduction. by Mohammed Qasim Shaheen (21417079)

“…The results show a COP of 0.79 with a cooling capacity of 5 kW at generator, condenser, evaporator, and absorber temperatures of (90, 40, 10, and 35), respectively. The COP increases as the evaporator temperature increases, and it decreases as the condenser and absorber temperature increases. …”

Assumed conditions. by Mohammed Qasim Shaheen (21417079)

“…The results show a COP of 0.79 with a cooling capacity of 5 kW at generator, condenser, evaporator, and absorber temperatures of (90, 40, 10, and 35), respectively. The COP increases as the evaporator temperature increases, and it decreases as the condenser and absorber temperature increases. …”