Fig. 5 Stability of the Q parameter.

Slides:

Advertisements

Similar presentations

Original Figures for "Molecular Classification of Cancer: Class Discovery and Class Prediction by Gene Expression Monitoring"

Advertisements

HBD HV Control and Monitoring System A Gain vs. HV study throughout Run-9 – PART 2 – Manuel Proissl HBD Meeting 06/23/2009.

Chapter 19 Table of Contents Section 1 Understanding Populations

Copyright © by Holt, Rinehart and Winston. All rights reserved. ResourcesChapter menu 14.3 Populations group of organisms that belong to the same species.

Why Model? Make predictions or forecasts where we don’t have data.

Studying Human Populations Section 9.1 Objectives: 1. 1.Define four properties used by scientists to predict population sizes Make predictions about.

Bayesian Travel Time Reliability

Introduction to Physical Science

Populations Chapter 19 Table of Contents Section 1 Understanding Populations Section 2 Measuring Populations Section 3 Human Population Growth.

Response to Comments on “Apatite 4 He/ 3 He and (U-Th)/He Evidence for an Ancient Grand Canyon” by R. M. Flowers, and K. A. Farley Science Volume 340(6129):

Scientific Method Mr. Chon / Science. Introduction Includes purpose Includes purpose What will you learn from this experiment? What will you learn from.

Assessing faculty professional development in STEM higher education: Sustainability of outcomes by Terry L. Derting, Diane Ebert-May, Timothy P. Henkel,

Fig. 4 Careers and their Q parameter.

What is Physical Science?

by James E. Cresswell, and Helen M. Thompson

Figure 3. Comparison of class performance

Fig. 1. (A) Development of the free calcium ions measured by the calcium ion selective electrode (black line) at pH = 9.25 in comparison with the dosed.

What Stops Social Epidemics?

Random-impact rule. Random-impact rule. The publication history of two Nobel laureates, Frank A. Wilczek (Nobel Prize in Physics, 2004) and John B. Fenn.

Fig. 1 Characterizing citation dynamics

by A. L. Westerling, H. G. Hidalgo, D. R. Cayan, and T. W. Swetnam

The Mechanism of Rate Remapping in the Dentate Gyrus

Fig. 3 The Q-model. The Q-model. (A) Distribution of the paper impact c10 across all publications in the data set. The gray line corresponds to a log-normal.

Disrupted dynamics of early stages of differentiation perturbs neural cell fate specification. Disrupted dynamics of early stages of differentiation perturbs.

The Antisense Transcriptomes of Human Cells

Stable Prenucleation Calcium Carbonate Clusters

by William T. S. Cole, James D. Farrell, David J. Wales, and Richard J

Fig. 2. Best model fits. Best model fits. Illustration of the best model fits for the (A) basic, (B) continuous, and (C) cluster models. See Table 1 and.

Middelburgse kade peat dyke: (a) cross-section; (b) comparison between hydraulic head predictions; (c) comparison between predictions and measurements;

What's So Special About Science (And How Much Should We Spend on It?)‏

Fig. 3. H3N2 incidence forecasts based on the cluster model for the Unites States. H3N2 incidence forecasts based on the cluster model for the Unites States.

by Asaf Inbal, Jean Paul Ampuero, and Robert W. Clayton

by Stephan Uphoff, Nathan D

Structural properties of 2954 OsMADS1-bound sequences in three data sets (intergenic, gene body, and A-tract). Structural properties of 2954 OsMADS1-bound.

Fig. 6 Relation between Q and other impact indicators.

Fig. 1 Patterns of productivity during a scientific career.

Chapter 1 Preview Section 2 Scientific Methods

Shock-Wave Exploration of the High-Pressure Phases of Carbon

Spontaneous locomotion of hygrobots under spatial gradient of humidity

Quantifying Long-Term Scientific Impact

Congratulations! Now Get to Work

Fig. 2 Patterns of impact during a scientific career.

Effects of Landscape Corridors on Seed Dispersal by Birds

by Katelyn M. Gostic, Monique Ambrose, Michael Worobey, and James O

by Kenneth W. Latimer, Jacob L. Yates, Miriam L. R

The Mars Pathfinder Atmospheric Structure Investigation/Meteorology (ASI/MET) Experiment by J. T. Schofield, J. R. Barnes, D. Crisp, R. M. Haberle, S.

Label frequency and average enrichment of taxa.

by Justin G. Bohnet, Brian C. Sawyer, Joseph W. Britton, Michael L

Trichromatic theory can explain foveal measurements.

by Lawrence W. Cheuk, Matthew A. Nichols, Katherine R

by S. van Velzen, G. E. Anderson, N. C. Stone, M. Fraser, T. Wevers, B

Fig. 2 Model-data comparison for latest Paleocene (2240 ppm) and PETM (4480 ppm) CO2 scenarios. Model-data comparison for latest Paleocene (2240 ppm) and.

Consistency of results across images and time.

Fig. 3. Lifetime fecundity and fecundity across age blocks in flies from the selected and control populations emerging in the morning and evening windows.(a)

Image cross-correlation analysis reveals the emergence of a dynamic steady state actin distribution in the minimal cortex. Image cross-correlation analysis.

Fig. 3 Cultural turnover is accelerating.

Observed (symbols) and predicted (solid lines, eq

Fig. 3 Comparison between predicted change in DT since the LIG and observed sea-level highstands. Comparison between predicted change in DT since the LIG.

Fig. 2 Time series of ice loss from the Amundsen Sea sector for the cases of unperturbed destabilization (black) and mass deposition (colored). Time series.

Reward associations do not explain transitive inference performance in monkeys by Greg Jensen, Yelda Alkan, Vincent P. Ferrera, and Herbert S. Terrace.

Fig. 4 Identification of C

Fig. 3 ET dynamics on the control and treatment watersheds during the pretreatment and treatment periods. ET dynamics on the control and treatment watersheds.

Fig. 2 Dynamics of Im7 protein by backbone 15N-NMR spin relaxation and molecular dynamics (MD) simulations. Dynamics of Im7 protein by backbone 15N-NMR.

Fig. 4 Demonstration of dynamic scale invariance at long times.

Fig. 3 Avoidable fraction of heat-related deaths if the current trajectory warming of 3°C is brought down to the 1.5° or 2°C Paris Agreement thresholds.

Fig. 5 Weakened Atlantic Niño–Pacific teleconnection in the CAM3

Relationships between species richness and temperature or latitude

Fig. 3 Comparisons of NDVI trends over the globally vegetated areas from 1982 to Comparisons of NDVI trends over the globally vegetated areas from.

Fig. 1 Transformation from coupling to decoupling.

Presentation transcript:

Fig. 5 Stability of the Q parameter. Stability of the Q parameter. (A) Time variation of the Q parameter during individual careers. For scientists with at least 100 papers and Q ≃ 1.2, Q ≃ 3.8, and Q ≃ 6.5, we report Q(ΔN), measured in a moving window of ΔN = 30 papers. For 75% of the scientists, the fluctuations are because we have a finite number of papers in the moving window, the magnitude of the changes being comparable to that predicted by the model with a constant Q (section S4.9). (B) Fluctuations of the Q parameter in model and data. We study the distribution of the uncertainty, , in both data and synthetic careers with constant Q (ΔN = 5). For 74.7% of the scientists, the fluctuations are comparable to those of the model. For the remaining 25.3%, the SD is slightly higher than the one predicted by the model. (C) Comparison between early and late Q parameter. We compare the Q parameter at early-career (Qearly) and late-career (Qlate) stage of 823 scientists with at least 50 papers. We measured the two values of the parameters using only the first and second half of published papers, respectively. We perform these measurements on the real data (circles) and on randomized careers, where the order of papers is shuffled (gray shaded areas). For most of the careers, 95.1%, the changes between early- and late-career stages fall within the fluctuations predicted by the null model with randomized paper order, indicating that the Q parameter is stable throughout a career. The observed fluctuations are explained by the finite number of papers in a scientist’s career. Roberta Sinatra et al. Science 2016;354:aaf5239 Published by AAAS