Distribution of predicted proteins from the <i>P. berghei</i> proteomes of activated gametocytes. by Yonghui Feng (12227596)

Stereological estimations of morpho-quantitative parameters in marmoset dorsal lateral geniculate nucleus (DLG). by Nelyane N. M. Santana (5217074)

Comparison with Existing Studies. by Na Zhao (112953)

“…The results indicate that: (1) the presence of pores prolongs both the time to failure and the onset of the AE burst stage, with longer durations observed at higher pore dip angles; (2) AE signal amplitude and frequency vary significantly across different loading stages, and the b-value exhibits an “increase–fluctuation–decrease” trend, with the decreasing stage serving as a precursor to rock instability; (3) pore dip angle strongly influences crack propagation types: dip angles of 0°–30° favor axial cracks and through-going wing cracks, 45°–75° angles tend to induce co-planar and wing crack connectivity, while 90° angles cause crack deviation, hindering through-going failure; (4) intact rock fails in a tensile–shear mixed mode, whereas the number of shear cracks in rocks with pores initially increases and then decreases with dip angle, reaching a maximum at 45°, resulting in shear-dominated failure. …”

Specimen Preparation and Experimental Setup. by Na Zhao (112953)

“…The results indicate that: (1) the presence of pores prolongs both the time to failure and the onset of the AE burst stage, with longer durations observed at higher pore dip angles; (2) AE signal amplitude and frequency vary significantly across different loading stages, and the b-value exhibits an “increase–fluctuation–decrease” trend, with the decreasing stage serving as a precursor to rock instability; (3) pore dip angle strongly influences crack propagation types: dip angles of 0°–30° favor axial cracks and through-going wing cracks, 45°–75° angles tend to induce co-planar and wing crack connectivity, while 90° angles cause crack deviation, hindering through-going failure; (4) intact rock fails in a tensile–shear mixed mode, whereas the number of shear cracks in rocks with pores initially increases and then decreases with dip angle, reaching a maximum at 45°, resulting in shear-dominated failure. …”

UCS texts data. by Na Zhao (112953)

“…The results indicate that: (1) the presence of pores prolongs both the time to failure and the onset of the AE burst stage, with longer durations observed at higher pore dip angles; (2) AE signal amplitude and frequency vary significantly across different loading stages, and the b-value exhibits an “increase–fluctuation–decrease” trend, with the decreasing stage serving as a precursor to rock instability; (3) pore dip angle strongly influences crack propagation types: dip angles of 0°–30° favor axial cracks and through-going wing cracks, 45°–75° angles tend to induce co-planar and wing crack connectivity, while 90° angles cause crack deviation, hindering through-going failure; (4) intact rock fails in a tensile–shear mixed mode, whereas the number of shear cracks in rocks with pores initially increases and then decreases with dip angle, reaching a maximum at 45°, resulting in shear-dominated failure. …”

Distributions of Passenger Patience for the Period 1: (a) Histogram of Taxi Wait Times and PDF of Patience for 1^st Forced Stops in Zone 1; (b) CDFs of Taxi Wait Times an... by Fangyi Yang (18867853)

Phosphoproteomic analysis of Δ<i>pbpp6</i> and WT <i>P. berghei</i> gametocytes. by Yonghui Feng (12227596)

Quantitative proteomic analysis of Δ<i>pbpp6</i> and WT <i>P. berghei</i> gametocytes. by Yonghui Feng (12227596)

Top view of the experimental setup. by Muhammad Hammad Bucha (21736111)

“…By increasing the surface roughness of the bluff body, the lock-in region decreases and as a result, the harvested power from that bluff body is reduced. …”

Parameters of energy harvesting. by Muhammad Hammad Bucha (21736111)

“…By increasing the surface roughness of the bluff body, the lock-in region decreases and as a result, the harvested power from that bluff body is reduced. …”

Graph for Max Amplitude/Length at G_y = 0. by Muhammad Hammad Bucha (21736111)

“…By increasing the surface roughness of the bluff body, the lock-in region decreases and as a result, the harvested power from that bluff body is reduced. …”

Graph for maximum Frequency at G_y = 0. by Muhammad Hammad Bucha (21736111)

“…By increasing the surface roughness of the bluff body, the lock-in region decreases and as a result, the harvested power from that bluff body is reduced. …”

Graph for maximum Power at G_y = 0. by Muhammad Hammad Bucha (21736111)

“…By increasing the surface roughness of the bluff body, the lock-in region decreases and as a result, the harvested power from that bluff body is reduced. …”

Summary of experimentation results. by Muhammad Hammad Bucha (21736111)

“…By increasing the surface roughness of the bluff body, the lock-in region decreases and as a result, the harvested power from that bluff body is reduced. …”

Piezoelectric eel. by Muhammad Hammad Bucha (21736111)

“…By increasing the surface roughness of the bluff body, the lock-in region decreases and as a result, the harvested power from that bluff body is reduced. …”

Geometric interpretation and data visualisation equivalent describing the DI algorithmic pipeline. by Borjan Milinkovic (21349908)

6MWT results. by Imane Salmam (21485704)

“…Additionally, VO₂_peak was decreased in most studies (7/10), falling below 80% of the predicted value, indicating impaired aerobic capacity. …”

Flowchart of selected studies. by Imane Salmam (21485704)

“…Additionally, VO₂_peak was decreased in most studies (7/10), falling below 80% of the predicted value, indicating impaired aerobic capacity. …”

Spirometry results. by Imane Salmam (21485704)

“…Additionally, VO₂_peak was decreased in most studies (7/10), falling below 80% of the predicted value, indicating impaired aerobic capacity. …”

Detailed characteristics of included studies. by Imane Salmam (21485704)

“…Additionally, VO₂_peak was decreased in most studies (7/10), falling below 80% of the predicted value, indicating impaired aerobic capacity. …”