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1 s important in many branches of chemical and physical science.
2 s is one of the central challenges in modern physical science.
3 um systems is an exciting frontier in modern physical science.
4 diction is among the greatest of any area of physical science.
5 o the full-fledged research field of protein physical science.
6 s rippled into many branches of the life and physical sciences.
7 very engines in the chemical, biological and physical sciences.
8 is a challenge found throughout the life and physical sciences.
9 at the interface of several subfields of the physical sciences.
10 s one of the most important processes in the physical sciences.
11 um is an outstanding challenge in the modern physical sciences.
12 range of researchers working in the life and physical sciences.
13 arge community that spans the biological and physical sciences.
14 y address key challenges at the heart of the physical sciences.
15 ess long-standing unresolved problems in the physical sciences.
16 isite precision previously reserved only for physical sciences.
17 r example in so-called Fermi problems in the physical sciences.
18 rk at the intersection of the biological and physical sciences.
19 vestigators from both the biological and the physical sciences.
20 ed computers to catalyze advancements in the physical sciences.
21 cal phenomena and, by extension, advance the physical sciences.
22 ticles have broad interest in biological and physical sciences.
23 lving molecular biology, bioinformatics, and physical sciences.
24 an outstanding problem in the biological and physical sciences.
25 ermolecular forces is a central theme in the physical sciences.
26 tre scale are indispensable for the life and physical sciences.
27 solve some of the problems in biological and physical sciences.
28 type of measurement taken for granted in the physical sciences.
29 tions of their discovery for biology and the physical sciences.
30 spatially extended dynamical systems in the physical sciences.
34 t sufficient to process the data for complex physical science analysis and simulations, which can be
36 rticularly from researchers in mathematical, physical science and engineering fields transitioning in
37 one of the most fundamental processes in the physical sciences and almost always occurs heterogeneous
39 ion of numerical estimates familiar from the physical sciences and canonized in the so-called "Fermi
40 sed biology will change future medicine, the physical sciences and engineering will also be changed b
42 sciences; mathematics and computer science; physical sciences and engineering; and social sciences a
43 erfaces is of widespread interest across the physical sciences and is a particularly acute need for l
46 papers and patents across the life sciences, physical sciences and patented inventions, and using a h
48 earning is playing an increasing role in the physical sciences and significant progress has been made
50 opy is a ubiquitous technique throughout the physical sciences and the orthogonality of fluorous mate
51 nd new materials and tools (largely from the physical sciences) and new phenomena (largely from the b
52 arch at the interface of nanotechnology, the physical sciences, and biology that are related to energ
54 the historical contributions of mathematics, physical sciences, and engineering to medical practice t
55 d extensively in the social, biological, and physical sciences, and in the study of the human dynamic
56 bility distributions, are widely used in the physical sciences, applied mathematics, and Bayesian sta
58 spectroscopy has been well-validated by the physical sciences as a method to characterize chemical c
59 in future emissions trajectories and in the physical science basis, especially at adaptation-relevan
60 d great interests to understand the math and physical science behind the topological transition on su
61 ese include broad field classifications into physical sciences, biological sciences, social sciences,
63 l structure of the model illustrates how the physical sciences contain useful tools for the study of
65 dose-resilient samples often studied in the physical sciences, electron ptychography - a coherent di
66 reason, the present study has focused on the physical sciences, engineering, and technology and has e
69 rst discovery, been an indispensable tool in physical science for probing elementary excitations, suc
71 that novice teachers of physics, chemistry, physical science, geometry, and biology exhibited steepe
72 he fields of mathematics, chemistry, and the physical sciences, graph theory plays a substantial role
74 ome practitioners increasingly combined with physical science in hopes of understanding global climat
76 arch spans the spectrum of topics within the physical sciences including research on improving energy
77 secure growing federal research funding, the physical sciences (including mathematics and engineering
78 n a bold program to systematically integrate physical sciences into cancer biology and treatment thro
79 e ubiquitous in the chemical, biological and physical sciences, it is crucial to develop methods to e
82 nology, biotechnology, and the materials and physical sciences may enable step-change approaches to c
83 and technology domains at the confluence of physical sciences, molecular engineering, biology, biote
84 ond, students of both the biological and the physical sciences need to be provided adequate opportuni
85 The emerging multidisciplinary field of the physical sciences of cancer is now embraced by engineers
88 ic from a physical sciences perspective, the Physical Sciences-Oncology Centers (PS-OC) Network perfo
91 tion from non-cancerous to metastatic from a physical sciences perspective, the Physical Sciences-Onc
92 opy (TEM) have been used to investigate many physical science phenomena, ranging from phase transitio
93 odiversity portals, as well as in social and physical sciences platforms and even in computing servic
94 RL strategy will be applicable to many other physical science problems involving search over continuo
95 e of Health Research (NIHR), Engineering and Physical Sciences Research Council (EPSRC), National Ins
96 icines Initiative (IMI), the Engineering and Physical Sciences Research Council (EPSRC), The Wellcome
98 Health (UK), Wellcome Trust, Engineering and Physical Sciences Research Council (UK), National Instit
99 al Challenges Research Fund, Engineering and Physical Sciences Research Council, Medical Research Cou
100 UK Research and Innovation, Engineering and Physical Sciences Research Council, National Institute f
101 ial Care, Wellcome Trust, UK Engineering and Physical Sciences Research Council, UK National Institut
110 and Social Research Council; Engineering and Physical Sciences Research Council; European and Develop
113 ance to design computing methods to catalyze physical science studies with better data access, phenom
114 ch, access, and utilization, (ii) facilitate physical science studies with enabling high-performance
116 supply curve development focus not purely on physical science, such as better resolved wind maps, but
117 daptable for investigations in materials and physical sciences, such as the spinning motion of colloi
118 The convergence of results from natural and physical sciences suggest that ancient life has continua
119 combined nontargeted holistic biological and physical science techniques to evaluate how simple stron
123 these processes is drawing researchers from physical sciences to join the effort and represents a ra
124 tion of the principles and techniques of the physical sciences to the study of biological systems has
125 y (that has made such a marked difference in physical sciences) to test detailed and subtle quantitat
127 ere have been challenges to this view in the physical sciences, where profoundly indeterminate events
128 achers of algebra 1, algebra 2, biology, and physical science who continued to teach for at least 5 y