HAM and Numerical solution for . by Siva Sankari (2827295)

“…This study finds that the velocity of the fluid decreases with magnetic constraint intensification and time retardation. however, heat transfer increases at higher radiation, and heat absorption/emission parameters but decreases with a higher Prandtl number, while an increased Schmidt number leads to decreased concentration profiles. …”

Outcomes of K on by Siva Sankari (2827295)

“…This study finds that the velocity of the fluid decreases with magnetic constraint intensification and time retardation. however, heat transfer increases at higher radiation, and heat absorption/emission parameters but decreases with a higher Prandtl number, while an increased Schmidt number leads to decreased concentration profiles. …”

Outcomes of Nt on by Siva Sankari (2827295)

“…This study finds that the velocity of the fluid decreases with magnetic constraint intensification and time retardation. however, heat transfer increases at higher radiation, and heat absorption/emission parameters but decreases with a higher Prandtl number, while an increased Schmidt number leads to decreased concentration profiles. …”

Variations of Pr and Ec to ). by Siva Sankari (2827295)

“…This study finds that the velocity of the fluid decreases with magnetic constraint intensification and time retardation. however, heat transfer increases at higher radiation, and heat absorption/emission parameters but decreases with a higher Prandtl number, while an increased Schmidt number leads to decreased concentration profiles. …”

HAM and Numerical solution for . by Siva Sankari (2827295)

“…This study finds that the velocity of the fluid decreases with magnetic constraint intensification and time retardation. however, heat transfer increases at higher radiation, and heat absorption/emission parameters but decreases with a higher Prandtl number, while an increased Schmidt number leads to decreased concentration profiles. …”

HAM and Numerical solution for . by Siva Sankari (2827295)

“…This study finds that the velocity of the fluid decreases with magnetic constraint intensification and time retardation. however, heat transfer increases at higher radiation, and heat absorption/emission parameters but decreases with a higher Prandtl number, while an increased Schmidt number leads to decreased concentration profiles. …”

HAM and Numerical solution for . by Siva Sankari (2827295)

“…This study finds that the velocity of the fluid decreases with magnetic constraint intensification and time retardation. however, heat transfer increases at higher radiation, and heat absorption/emission parameters but decreases with a higher Prandtl number, while an increased Schmidt number leads to decreased concentration profiles. …”

Outcomes of Sb on . by Siva Sankari (2827295)

“…This study finds that the velocity of the fluid decreases with magnetic constraint intensification and time retardation. however, heat transfer increases at higher radiation, and heat absorption/emission parameters but decreases with a higher Prandtl number, while an increased Schmidt number leads to decreased concentration profiles. …”

Diagram of the flow model. by Siva Sankari (2827295)

“…This study finds that the velocity of the fluid decreases with magnetic constraint intensification and time retardation. however, heat transfer increases at higher radiation, and heat absorption/emission parameters but decreases with a higher Prandtl number, while an increased Schmidt number leads to decreased concentration profiles. …”

HAM and Numerical solution for . by Siva Sankari (2827295)

“…This study finds that the velocity of the fluid decreases with magnetic constraint intensification and time retardation. however, heat transfer increases at higher radiation, and heat absorption/emission parameters but decreases with a higher Prandtl number, while an increased Schmidt number leads to decreased concentration profiles. …”

Variations of Sb and Pe to -χ�(0). by Siva Sankari (2827295)

“…This study finds that the velocity of the fluid decreases with magnetic constraint intensification and time retardation. however, heat transfer increases at higher radiation, and heat absorption/emission parameters but decreases with a higher Prandtl number, while an increased Schmidt number leads to decreased concentration profiles. …”

Outcomes of λ on . by Siva Sankari (2827295)

“…This study finds that the velocity of the fluid decreases with magnetic constraint intensification and time retardation. however, heat transfer increases at higher radiation, and heat absorption/emission parameters but decreases with a higher Prandtl number, while an increased Schmidt number leads to decreased concentration profiles. …”

Outcomes of Pr on by Siva Sankari (2827295)

“…This study finds that the velocity of the fluid decreases with magnetic constraint intensification and time retardation. however, heat transfer increases at higher radiation, and heat absorption/emission parameters but decreases with a higher Prandtl number, while an increased Schmidt number leads to decreased concentration profiles. …”

Outcomes of Ec on by Siva Sankari (2827295)

“…This study finds that the velocity of the fluid decreases with magnetic constraint intensification and time retardation. however, heat transfer increases at higher radiation, and heat absorption/emission parameters but decreases with a higher Prandtl number, while an increased Schmidt number leads to decreased concentration profiles. …”

Relationship between community-level prevalence of non-suppression among PLHIV and HIV incidence per 100 person-years, by trial. by Joseph Larmarange (361177)

Synthesis, Structure, and Dynamic Behavior of Cyclopentadienyl-Lithium, -Sodium, and -Potassium Annelated with Bicyclo[2.2.2]octene Units:  A Systematic Study on Site Exchange of A... by Tohru Nishinaga (1630696)

“…Novel cyclopentadienyl (Cp)−alkali metal complexes <b>1</b>−M and <b>2</b>−M (M = Li, Na, K), in which the Cp ring is annelated with two bicyclo[2.2.2]octene units and substituted with a phenyl group for <b>1</b> and a <i>tert</i>-butyl group for <b>2</b>, were synthesized, and their structures and dynamic behaviors were investigated by means of X-ray crystallography, dynamic ¹³C NMR, and DFT calculations. …”

Synthesis, Structure, and Dynamic Behavior of Cyclopentadienyl-Lithium, -Sodium, and -Potassium Annelated with Bicyclo[2.2.2]octene Units:  A Systematic Study on Site Exchange of A... by Tohru Nishinaga (1630696)

“…Novel cyclopentadienyl (Cp)−alkali metal complexes <b>1</b>−M and <b>2</b>−M (M = Li, Na, K), in which the Cp ring is annelated with two bicyclo[2.2.2]octene units and substituted with a phenyl group for <b>1</b> and a <i>tert</i>-butyl group for <b>2</b>, were synthesized, and their structures and dynamic behaviors were investigated by means of X-ray crystallography, dynamic ¹³C NMR, and DFT calculations. …”

Synthesis, Structure, and Dynamic Behavior of Cyclopentadienyl-Lithium, -Sodium, and -Potassium Annelated with Bicyclo[2.2.2]octene Units:  A Systematic Study on Site Exchange of A... by Tohru Nishinaga (1630696)

“…Novel cyclopentadienyl (Cp)−alkali metal complexes <b>1</b>−M and <b>2</b>−M (M = Li, Na, K), in which the Cp ring is annelated with two bicyclo[2.2.2]octene units and substituted with a phenyl group for <b>1</b> and a <i>tert</i>-butyl group for <b>2</b>, were synthesized, and their structures and dynamic behaviors were investigated by means of X-ray crystallography, dynamic ¹³C NMR, and DFT calculations. …”

Synthesis, Structure, and Dynamic Behavior of Cyclopentadienyl-Lithium, -Sodium, and -Potassium Annelated with Bicyclo[2.2.2]octene Units:  A Systematic Study on Site Exchange of A... by Tohru Nishinaga (1630696)

“…Novel cyclopentadienyl (Cp)−alkali metal complexes <b>1</b>−M and <b>2</b>−M (M = Li, Na, K), in which the Cp ring is annelated with two bicyclo[2.2.2]octene units and substituted with a phenyl group for <b>1</b> and a <i>tert</i>-butyl group for <b>2</b>, were synthesized, and their structures and dynamic behaviors were investigated by means of X-ray crystallography, dynamic ¹³C NMR, and DFT calculations. …”

Representative epifluorescent images used to quantify phagocytosis in Fig 1 and S1 Fig. by Erika J. Gruber (11846156)