Association between mental health status and socio-demographic variables of respondents (n = 259). by Isha Aryal (22582068)

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Correlation of screen time with sleep quality and mental health score. by Isha Aryal (22582068)

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Association between screen time and demographic variables of respondents (n = 259). by Isha Aryal (22582068)

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Association of screen time variables with mental health of respondents (n = 259). by Isha Aryal (22582068)

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Association of screen time variables with sleep quality of respondents (n = 259). by Isha Aryal (22582068)

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Frequency and percentage on screen time questionnaire of respondents (n = 259). by Isha Aryal (22582068)

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Mental health status of respondents (n = 259). by Isha Aryal (22582068)

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Neural timescales increase with cognitive demands. by Isabel Raposo (21615517)

Fig 8 - by Torsten Schober (20485754)

Significant Electrode of Supercapattery Devices: the Induced Charge Storage Capability of MoSe₂/rGO Nanosheets Bedecked by MnO₂ Nanorod Composites by Kumar R (3991646)

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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. …”

Fixed simulation data. 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. …”

pone.0324800.t002 - 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. …”