about
Secondary structure and domain architecture of the 23S and 5S rRNAsCoherent angular motion in the establishment of multicellular architecture of glandular tissues.Automated three-dimensional registration of high-resolution peripheral quantitative computed tomography data to quantify size and shape changes of arthritic bone erosions.Front instabilities and invasiveness of simulated 3D avascular tumors.Treating lung cancer with dynamic conformal arc therapy: a dosimetric studyPersistent homology for the quantitative prediction of fullerene stability.In vivo multiphoton imaging reveals gradual growth of newborn amyloid plaques over weeks.Imaging nanocarbon materials: soot particles in flames are not structurally homogeneous.How river rocks round: resolving the shape-size paradox.FIB/SEM technology and high-throughput 3D reconstruction of dendritic spines and synapses in GFP-labeled adult-generated neurons.Effect of Macroanatomic Bone Type and Estrogen Loss on Osteocyte Lacunar Properties in Healthy Adult Women.Prognostic implication of left atrial sphericity in atrial fibrillation patients undergoing radiofrequency catheter ablation.Addressing preferred specimen orientation in single-particle cryo-EM through tilting.Image-based modeling and scoring of Howell-Jolly Bodies in human erythrocytes.Packing fraction of particles with a Weibull size distribution.Surface area - volume ratios in insects.Quantitative phase microscopy spatial signatures of cancer cells.SCEDS: protein fragments for molecular replacement in PhaserA deep convolutional neural network-based automatic delineation strategy for multiple brain metastases stereotactic radiosurgery.Quantitative Image Feature Engine (QIFE): an Open-Source, Modular Engine for 3D Quantitative Feature Extraction from Volumetric Medical Images.Athermal jamming of soft frictionless Platonic solids.Packings of irregular polyhedral particles: strength, structure, and effects of angularity.Thiolate adsorption on Au(hkl) and equilibrium shape of large thiolate-covered gold nanoparticles.Influence of granular packing on porosity and tortuosity.On-Chip Glass Microspherical Shell Whispering Gallery Mode Resonators.Shape-related characteristics of age-related differences in subcortical structures.Mental speed is associated with the shape irregularity of white matter MRI hyperintensity load.Development and validation of a prediction model for measurement variability of lung nodule volumetry in patients with pulmonary metastases.Phase-field simulations at the atomic scale in comparison to molecular dynamics.Adsorption of anionic and non-ionic surfactants on carbon nanotubes in water with dissipative particle dynamics simulation.Morphology and characterization of Dematiaceous fungi on a cellulose paper substrate using synchrotron X-ray microtomography, scanning electron microscopy and confocal laser scanning microscopy in the context of cultural heritageScattering functions of Platonic solidsAutomated method for determining the flow of surface functionalized nanoparticles through a hydraulically fractured mineral formation using plasmonic silver nanoparticlesDetection of magnetic nanoparticles against proppant and shale reservoir rocksIsomers of the C84 fullerene: A theoretical consideration within energetic, structural, and topological approachesThe Effect of Milk Protein Concentration on the Microstructure and Textural Properties of Full Fat Cheddar Cheese During Ripening
P2860
Q28681442-16AF77C8-3F0D-4857-ABA0-4920A4190B79Q30505170-07AB66B4-1A81-49AD-AE1A-B7D872688E6EQ30980452-CA499B33-4E9D-4D12-A69B-7F46B7EE5F40Q33593093-830D6F36-5D54-49CF-BF9A-6B9168B0D2F6Q33759703-EE916A91-DFC4-4C3A-9E2C-5468F50CA70DQ34454682-7758B570-8C54-459B-B254-5EB009D3C4A8Q34570875-59365849-3A94-42E0-AEE1-1BD2347A2DABQ34942047-464AC820-A7FD-4BCE-96E1-1F010882E339Q35095502-F2E3F986-D975-434B-8FEA-F3BDE535CE4AQ35633118-3B2EBD36-9F04-48A3-90C5-EAFB3527DC48Q36294759-1B822BF2-0803-4FF4-971F-D88ED7C0F0D3Q38404142-FF980CA6-5CE5-4192-ADF4-291A90987841Q38696835-942A08D3-D45F-4465-8719-1FD2314445B4Q38763968-24B6F69B-9455-4A96-8C12-BF1CDA07B0DEQ39440848-582C53DA-AC3B-4839-AFF7-FC594120DBA5Q39730524-84B6346B-6494-4050-BA15-9B3C2F05D4DFQ40462401-FDE9AD34-0A74-4011-8A73-F4BEE691CC6EQ41835843-9B4595AC-97F1-4268-876E-D1E20F345F67Q42371424-6F159726-0A76-46C3-88D0-2AB2438FBE49Q42695996-3B14D004-47A1-437B-8957-080DBD5F0DE2Q42758049-2D870371-FB89-40DA-A318-C3105C752068Q44760435-6E0A6D7B-0D09-4B89-A5B8-40EF6B4BF402Q46105875-17AC5AFF-0699-4080-85F5-ED1E99B8F8FEQ46781384-F3406709-4ECA-4C8D-97C5-8FCDAACEE4A5Q47142792-DA8F520E-0CDE-4005-81CD-750671AF4A04Q47565236-F512D995-4ED8-4340-9414-E7B5BE17ADC6Q47894598-4F2F73BC-B832-42ED-B366-C8E2875EB39AQ48097625-6C5379E8-9FFB-46FE-98D9-D6D1EB5D8523Q51120839-4CFEEDB8-7DD0-4409-BC14-0643D21491E2Q51308568-83D3ECEC-4358-4D5A-95A0-CA3FAA037FD8Q56038626-E9F97D5B-4638-439E-BE73-1D72C839497CQ57435860-BA954EDF-08AA-4FB3-99B1-852200B4754CQ57693677-CDB010F6-2D76-47B3-8203-7195A0500D10Q57693683-3A530800-16EC-4B5C-A1C8-103F4B2E9EC0Q57941311-9E08BECD-E152-4A56-9E3F-E3159152ED00Q58127396-4C956183-B8D9-4516-A518-83A8DC4472A8
P2860
description
1935 nî lūn-bûn
@nan
1935 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
1935 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
1935年の論文
@ja
1935年論文
@yue
1935年論文
@zh-hant
1935年論文
@zh-hk
1935年論文
@zh-mo
1935年論文
@zh-tw
1935年论文
@wuu
name
Volume, Shape, and Roundness of Quartz Particles
@ast
Volume, Shape, and Roundness of Quartz Particles
@en
type
label
Volume, Shape, and Roundness of Quartz Particles
@ast
Volume, Shape, and Roundness of Quartz Particles
@en
prefLabel
Volume, Shape, and Roundness of Quartz Particles
@ast
Volume, Shape, and Roundness of Quartz Particles
@en
P356
P1476
Volume, Shape, and Roundness of Quartz Particles
@en
P2093
Hakon Wadell
P304
P356
10.1086/624298
P577
1935-04-01T00:00:00Z