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. …”

Example of force-time curve graphic obtained from countermovement push up. by Ferhat Öztürk (16747632)

Subjects:

Variation in band gap energy with respect to Co dopant concentration in ZnO-NPs. by Adil Muhammad (13003230)

Subjects:

Energy band gap of various dopant concentration of Co-doped ZnO-NPs. by Adil Muhammad (13003230)

Subjects:

The windows show the final results reflecting the increase or decrease in the GRF and JRF calculations. by Amany Eid Abd El-Tawab (13864185)

The combination of CUMS and smoke exposure significantly decreased the expression of pro-apoptosis factors and increase in anti-apoptosis factors when compared to stress or smoke g... by Bai-Ping Liu (14164799)

Subjects:

Overlays of simulations with (in red) and without (in blue) repulsive forces. by G. Jordan Maclay (11714526)

Subjects:

Force of infection of dengue, Zika and chikungunya according to socioeconomic strata. by Cynthia Braga (233674)

Atomic force microscopy identified loss of roughness on enamel surface induced by high temperature. by Sinai H. C. Manno (5495897)