Penalty conversions yield large practical decreases, but robustness and generalizability of result are limited by data quality and sample selection. by Ryan J. Treves (13527735)

Data variation (repeated-measures ANOVA) and changes in force-time parameters obtained from force platform by swimmers over the first macrocycle of the training season. by Ferhat Öztürk (16747632)

Subjects:

Anion-Assisted Glycosylation of Galactose: A Computational Study by Kerli Tali (22769704)

Subjects:

Simulations for the same FVM force vector law but with three values of the force exponent, with AIB = 100, seed 91. by G. Jordan Maclay (11714526)

Subjects:

Vertical force–None. by Tuan Anh Nguyen (121944)

“…Besides, the speed of the vehicle is also gradually increased from v₁ to v₄. As a result of the simulation, which was performed in the MATLAB-Simulink environment, the output values such as roll angle, change of the vertical force, and roll index were significantly reduced when the active stabilizer bar was used. …”

Vertical force–Mechanical. by Tuan Anh Nguyen (121944)

“…Besides, the speed of the vehicle is also gradually increased from v₁ to v₄. As a result of the simulation, which was performed in the MATLAB-Simulink environment, the output values such as roll angle, change of the vertical force, and roll index were significantly reduced when the active stabilizer bar was used. …”

Vertical force–None. by Tuan Anh Nguyen (121944)

“…Besides, the speed of the vehicle is also gradually increased from v₁ to v₄. As a result of the simulation, which was performed in the MATLAB-Simulink environment, the output values such as roll angle, change of the vertical force, and roll index were significantly reduced when the active stabilizer bar was used. …”

Vertical force–Fuzzy. by Tuan Anh Nguyen (121944)

“…Besides, the speed of the vehicle is also gradually increased from v₁ to v₄. As a result of the simulation, which was performed in the MATLAB-Simulink environment, the output values such as roll angle, change of the vertical force, and roll index were significantly reduced when the active stabilizer bar was used. …”

Vertical force–Fuzzy. by Tuan Anh Nguyen (121944)

“…Besides, the speed of the vehicle is also gradually increased from v₁ to v₄. As a result of the simulation, which was performed in the MATLAB-Simulink environment, the output values such as roll angle, change of the vertical force, and roll index were significantly reduced when the active stabilizer bar was used. …”

Vertical force–None. by Tuan Anh Nguyen (121944)

“…Besides, the speed of the vehicle is also gradually increased from v₁ to v₄. As a result of the simulation, which was performed in the MATLAB-Simulink environment, the output values such as roll angle, change of the vertical force, and roll index were significantly reduced when the active stabilizer bar was used. …”

Vertical force–Fuzzy. by Tuan Anh Nguyen (121944)

“…Besides, the speed of the vehicle is also gradually increased from v₁ to v₄. As a result of the simulation, which was performed in the MATLAB-Simulink environment, the output values such as roll angle, change of the vertical force, and roll index were significantly reduced when the active stabilizer bar was used. …”

Vertical force–Mechanical. by Tuan Anh Nguyen (121944)

“…Besides, the speed of the vehicle is also gradually increased from v₁ to v₄. As a result of the simulation, which was performed in the MATLAB-Simulink environment, the output values such as roll angle, change of the vertical force, and roll index were significantly reduced when the active stabilizer bar was used. …”

Vertical force–Mechanical. by Tuan Anh Nguyen (121944)

“…Besides, the speed of the vehicle is also gradually increased from v₁ to v₄. As a result of the simulation, which was performed in the MATLAB-Simulink environment, the output values such as roll angle, change of the vertical force, and roll index were significantly reduced when the active stabilizer bar was used. …”

Vertical force–None. by Tuan Anh Nguyen (121944)

“…Besides, the speed of the vehicle is also gradually increased from v₁ to v₄. As a result of the simulation, which was performed in the MATLAB-Simulink environment, the output values such as roll angle, change of the vertical force, and roll index were significantly reduced when the active stabilizer bar was used. …”

Vertical force–Mechanical. by Tuan Anh Nguyen (121944)

“…Besides, the speed of the vehicle is also gradually increased from v₁ to v₄. As a result of the simulation, which was performed in the MATLAB-Simulink environment, the output values such as roll angle, change of the vertical force, and roll index were significantly reduced when the active stabilizer bar was used. …”

Vertical force–Fuzzy. by Tuan Anh Nguyen (121944)

“…Besides, the speed of the vehicle is also gradually increased from v₁ to v₄. As a result of the simulation, which was performed in the MATLAB-Simulink environment, the output values such as roll angle, change of the vertical force, and roll index were significantly reduced when the active stabilizer bar was used. …”

The slope for all significant factors on the number of steps before a fall across all three speeds. by Amy Mitchell (3208905)

Resultant hip, knee and ankle joint contact forces obtained with the different models. by Hans Kainz (8459514)

Subjects:

Local blockage of myostatin resulted in increased muscle mass and enhanced muscle strength in the right gastrocnemius muscles. by Chan Li (433717)

Subjects:

The SHAP force plots. by Tianzhi Huang (115630)