Numerical Simulation on the Radar Cross Section of Variable-Sweep Wing Aircraft by Shichun Chen (6137399)

“…The results of mathematical statistics and comparative analysis show that: (i) the RCS peak value in the head direction of the aircraft decreases non-linearly with the sweep angle of the wing's leading edge; (ii) the azimuth angle corresponding to one of the peak values of the aircraft's RCS is equal to the leading edge's sweep angle; (iii) when the leading edge's sweep angle is 33º, the arithmetic average value of the RCS values in the head direction of the aircraft is 0.644% of the average value when the sweep angle is 0º; (iv) the larger the sweep angle is, the lower the probability that the aircraft is detected.…”

Crystallization of Active Emulsion by Boris Kichatov (9609078)

“…Crystallization proceeds via condensation of droplets from the gas phase through the formation of liquid as an intermediate phase, which covers the crystal surface with a thin layer. Inside the liquid layer the bond-orientational order of droplets decreases from the crystal surface toward the gas phase. …”

Crystallization of Active Emulsion by Boris Kichatov (9609078)

“…Crystallization proceeds via condensation of droplets from the gas phase through the formation of liquid as an intermediate phase, which covers the crystal surface with a thin layer. Inside the liquid layer the bond-orientational order of droplets decreases from the crystal surface toward the gas phase. …”

Crystallization of Active Emulsion by Boris Kichatov (9609078)

“…Crystallization proceeds via condensation of droplets from the gas phase through the formation of liquid as an intermediate phase, which covers the crystal surface with a thin layer. Inside the liquid layer the bond-orientational order of droplets decreases from the crystal surface toward the gas phase. …”

Crystallization of Active Emulsion by Boris Kichatov (9609078)

“…Crystallization proceeds via condensation of droplets from the gas phase through the formation of liquid as an intermediate phase, which covers the crystal surface with a thin layer. Inside the liquid layer the bond-orientational order of droplets decreases from the crystal surface toward the gas phase. …”

Crystallization of Active Emulsion by Boris Kichatov (9609078)

“…Crystallization proceeds via condensation of droplets from the gas phase through the formation of liquid as an intermediate phase, which covers the crystal surface with a thin layer. Inside the liquid layer the bond-orientational order of droplets decreases from the crystal surface toward the gas phase. …”

Crystallization of Active Emulsion by Boris Kichatov (9609078)

“…Crystallization proceeds via condensation of droplets from the gas phase through the formation of liquid as an intermediate phase, which covers the crystal surface with a thin layer. Inside the liquid layer the bond-orientational order of droplets decreases from the crystal surface toward the gas phase. …”

Crystallization of Active Emulsion by Boris Kichatov (9609078)

“…Crystallization proceeds via condensation of droplets from the gas phase through the formation of liquid as an intermediate phase, which covers the crystal surface with a thin layer. Inside the liquid layer the bond-orientational order of droplets decreases from the crystal surface toward the gas phase. …”

Crystallization of Active Emulsion by Boris Kichatov (9609078)

“…Crystallization proceeds via condensation of droplets from the gas phase through the formation of liquid as an intermediate phase, which covers the crystal surface with a thin layer. Inside the liquid layer the bond-orientational order of droplets decreases from the crystal surface toward the gas phase. …”

Crystallization of Active Emulsion by Boris Kichatov (9609078)

“…Crystallization proceeds via condensation of droplets from the gas phase through the formation of liquid as an intermediate phase, which covers the crystal surface with a thin layer. Inside the liquid layer the bond-orientational order of droplets decreases from the crystal surface toward the gas phase. …”

Crystallization of Active Emulsion by Boris Kichatov (9609078)

“…Crystallization proceeds via condensation of droplets from the gas phase through the formation of liquid as an intermediate phase, which covers the crystal surface with a thin layer. Inside the liquid layer the bond-orientational order of droplets decreases from the crystal surface toward the gas phase. …”

Crystallization of Active Emulsion by Boris Kichatov (9609078)

“…Crystallization proceeds via condensation of droplets from the gas phase through the formation of liquid as an intermediate phase, which covers the crystal surface with a thin layer. Inside the liquid layer the bond-orientational order of droplets decreases from the crystal surface toward the gas phase. …”

Crystallization of Active Emulsion by Boris Kichatov (9609078)

“…Crystallization proceeds via condensation of droplets from the gas phase through the formation of liquid as an intermediate phase, which covers the crystal surface with a thin layer. Inside the liquid layer the bond-orientational order of droplets decreases from the crystal surface toward the gas phase. …”

Expression levels and trends for miRNAs detected in maize grain filling. by Xining Jin (391364)

“…<p>^a, miRNAs whose abundance increased linearly from 17 to 28 DAP;</p><p>^b, miRNAs whose abundance decreased linearly from 17 to 28 DAP;</p><p>^c, miRNAs up-regulated at 25 DAP;</p><p>^d, miRNAs down-regulated at 25 DAP;</p><p>^e, miRNAs up-regulated at 22 DAP;</p><p>^f, miRNAs down-regulated at 22 DAP;</p><p>^g, miRNAs that had irregular changes.…”

Table_1_Nitrogen and Phosphorous Content in Blue Mussels (Mytilus spp.) Across the Baltic Sea.XLSX by Anna-Lucia Buer (6205790)

“…We observed that nutrient content was not linearly correlated to salinity, but if categorized, decreased at higher salinities. …”

Data_Sheet_1_Saturated Dissolved Oxygen Concentration in in situ Fragmentation Bioleaching of Copper Sulfide Ores.docx by Ming-Qing Huang (10719069)

“…The conjoint effect of the five variables on oxygen solubility showed that pH was linearly negatively related to oxygen solubility. Additionally, a mathematical model was also proposed to predict the saturated dissolved oxygen concentration in in situ fragmentation bioleaching of copper sulfide ores. …”

Concept and procedure of the inverse reinforcement learning (IRL)-based approach. by Shoichiro Yamaguchi (5166356)

“…<p><b>(A)</b> Reinforcement learning represents a forward problem, in which a behavioral strategy is optimized to maximize the cumulative reward given as a series of states and rewards. …”

DataSheet_1_Integrated use of phosphorus fertilizer and farmyard manure improves wheat productivity by improving soil quality and P availability in calcareous soil under subhumid c... by Aftab Jamal (14490848)

“…</p>Results and Discussion<p>Soil organic matter increased (30-72%) linearly for both fertilizer and FYM, whereas pH decreased (0.1-0.3 units) with fertilizer only. …”

Kinetics of Ldt_fm inactivation by imipenem, ceftriaxone, and ampicillin. by Sébastien Triboulet (430444)

“…Regression analysis was performed with equation F_t = F_eq+ΔF e^{−<i>k</i>obst} in which F_eq and F_t are the fluorescence intensities at equilibrium and at time t, respectively, ΔF is the difference between fluorescence intensity at time = 0 and at equilibrium, t is time, and <i>k</i>_obs is a constant. The resulting rate constants (<i>k</i>_obs) increased linearly with the drug concentration (E) and the slope provided an estimate of the efficiency of enzyme acylation (F).…”

Disappearing Scales in Carps: Re-Visiting Kirpichnikov's Model on the Genetics of Scale Pattern Formation by Laura Casas (471953)

“…We observed phenotypic changes which were not restricted to nudes, as described by Kirpichnikov, but were also present in mirrors (and presumably in linears as well; not analyzed in detail here). We propose that the gradation of phenotypes observed within the scattered group is caused by a gradually decreasing level of signaling (a dose-dependent effect) probably due to a concerted action of multiple pathways involved in scale formation.…”