Effects of predators’ detection distance (<i>D</i>_<i>w</i>) on encounter frequency (<i>E</i>), agent numbers (<i>N</i>_<i>i</i>), and Nash equilibrium payoffs... by Hiroyuki Ichijo (13891153)

Comparison curves of snow. by Hanqing Guo (12451176)

“…The compaction rate initially increases and then decreases with different snow thicknesses; beyond the tread depth, the load significantly affects the maximum compaction rate, which reaches 504 mm/s. …”

Comparison of simulation results. by Hanqing Guo (12451176)

“…The compaction rate initially increases and then decreases with different snow thicknesses; beyond the tread depth, the load significantly affects the maximum compaction rate, which reaches 504 mm/s. …”

Displacement vector diagram of snow. by Hanqing Guo (12451176)

“…The compaction rate initially increases and then decreases with different snow thicknesses; beyond the tread depth, the load significantly affects the maximum compaction rate, which reaches 504 mm/s. …”

Curve fitting of parameter a. by Hongming Li (296020)

“…The test results show that the soil expansion rate decreases from 43.7% to 37.1% with the increase of salt solution concentration. …”

Results of parameters a, b for curve fitting. by Hongming Li (296020)

“…The test results show that the soil expansion rate decreases from 43.7% to 37.1% with the increase of salt solution concentration. …”

Physico-chemical property of Ningming Bentonite. by Hongming Li (296020)

“…The test results show that the soil expansion rate decreases from 43.7% to 37.1% with the increase of salt solution concentration. …”

Curve fitting of parameter b. by Hongming Li (296020)

“…The test results show that the soil expansion rate decreases from 43.7% to 37.1% with the increase of salt solution concentration. …”

Description of the selected nodes. by Hanqing Guo (12451176)

“…The compaction rate initially increases and then decreases with different snow thicknesses; beyond the tread depth, the load significantly affects the maximum compaction rate, which reaches 504 mm/s. …”

Fully chemistry analysis of silicate. by Hongming Li (296020)

“…The test results show that the soil expansion rate decreases from 43.7% to 37.1% with the increase of salt solution concentration. …”

MDPC material parameters for snow. by Hanqing Guo (12451176)

“…The compaction rate initially increases and then decreases with different snow thicknesses; beyond the tread depth, the load significantly affects the maximum compaction rate, which reaches 504 mm/s. …”

The dielectric constant <i>D</i> of the solution. by Hongming Li (296020)

“…The test results show that the soil expansion rate decreases from 43.7% to 37.1% with the increase of salt solution concentration. …”

Description of the selected nodes. by Hanqing Guo (12451176)

“…The compaction rate initially increases and then decreases with different snow thicknesses; beyond the tread depth, the load significantly affects the maximum compaction rate, which reaches 504 mm/s. …”

Grading curve of the Ningming Bentonite. by Hongming Li (296020)

“…The test results show that the soil expansion rate decreases from 43.7% to 37.1% with the increase of salt solution concentration. …”

Comparison between the non-sensory motor and sensory–motor algorithms. by Hiroyuki Ichijo (13891153)

Fit of the extended efficient Bayesian observer model to the data from Experiment 3. by Qi Sun (127)

“…A repeated-measures ANOVA with Bonferroni-corrected post-hoc tests revealed that <i>α</i> significantly increases with the response range (***<i>p</i> < 0.001). …”

ENP C-term phosphomimic variants and <i>enp</i> rescue. by Michaela S. Matthes (21587677)

Raw data of figures. by Qingwen Li (1510687)

“…As the net spacing ratio decreases and the number of CFRP layers increases, the peak strength and deformation capacity of the coal cylinders are significantly improved, with the maximum enhancement rate reaching up to 409.36%. …”

Test scheme of CFRP-confined coal cylinder. by Qingwen Li (1510687)

“…As the net spacing ratio decreases and the number of CFRP layers increases, the peak strength and deformation capacity of the coal cylinders are significantly improved, with the maximum enhancement rate reaching up to 409.36%. …”

Tailoring Ionic Conductivity of Polymeric Ionic Liquid Block Copolymers through Morphology Control by Samuel K. J. Adotey (22425591)

“…However, recent work demonstrates that the ionic conductivity of a model lamellar material is significantly depressed relative to expectations based on the measured properties of a PIL homopolymer (Coote et al., ACS Polymers Au, 3, 2023). …”