Decrease in loss during the training process. by Muhammad Idrees (92773)

DataSheet1_Decreasing viscosity and increasing accessible load by replacing classical diluents with a hydrotrope in liquid–liquid extraction.docx by Asmae El Maangar (19690522)

“…We show that using hydrotropes as a diluent decreases the viscosity of solutions by more than a factor of ten, even under high load by extracted cations. …”

A sample choice question with a warning label. by Yulian Ding (5984591)

“…The rapid increase in SSB consumption in China necessitates robust regulations. This study employed a choice experiment to simulate the market scenario in which a text warning label was presented on SSBs. …”

A sample choice question without a warning label. by Yulian Ding (5984591)

“…The rapid increase in SSB consumption in China necessitates robust regulations. This study employed a choice experiment to simulate the market scenario in which a text warning label was presented on SSBs. …”

Image 1_Chromosome 1 variants associated with decreased HIV set-point viral load correlate with PRKAB2 expression changes.png by Riley H. Tough (14432838)

S9 Data - by Christoph Anders (4068499)

“…<div><p>Hysteresis refers to a physical phenomenon in which the response or state of a system depends on both the input variable and its history. …”

S11 Data - by Christoph Anders (4068499)

“…<div><p>Hysteresis refers to a physical phenomenon in which the response or state of a system depends on both the input variable and its history. …”

S1 Data - by Christoph Anders (4068499)

“…<div><p>Hysteresis refers to a physical phenomenon in which the response or state of a system depends on both the input variable and its history. …”

S10 Data - by Christoph Anders (4068499)

“…<div><p>Hysteresis refers to a physical phenomenon in which the response or state of a system depends on both the input variable and its history. …”

S6 Data - by Christoph Anders (4068499)

“…<div><p>Hysteresis refers to a physical phenomenon in which the response or state of a system depends on both the input variable and its history. …”

S5 Data - by Christoph Anders (4068499)

“…<div><p>Hysteresis refers to a physical phenomenon in which the response or state of a system depends on both the input variable and its history. …”

S4 Data - by Christoph Anders (4068499)

“…<div><p>Hysteresis refers to a physical phenomenon in which the response or state of a system depends on both the input variable and its history. …”

S8 Data - by Christoph Anders (4068499)

“…<div><p>Hysteresis refers to a physical phenomenon in which the response or state of a system depends on both the input variable and its history. …”

S12 Data - by Christoph Anders (4068499)

“…<div><p>Hysteresis refers to a physical phenomenon in which the response or state of a system depends on both the input variable and its history. …”

S3 Data - by Christoph Anders (4068499)

“…<div><p>Hysteresis refers to a physical phenomenon in which the response or state of a system depends on both the input variable and its history. …”

S2 Data - by Christoph Anders (4068499)

“…<div><p>Hysteresis refers to a physical phenomenon in which the response or state of a system depends on both the input variable and its history. …”

S7 Data - by Christoph Anders (4068499)

“…<div><p>Hysteresis refers to a physical phenomenon in which the response or state of a system depends on both the input variable and its history. …”

Raw data for "Wing and pappus appendages decrease seed terminal velocity: A meta-analysis" by Sle-gee Lee (22511645)

Global Land Use Change Impacts on Soil Nitrogen Availability and Environmental Losses by Jing Wang (6206297)

“…However, how global land use changes impact soil N supply and potential N loss remains elusive. By compiling a global data set of 1,782 paired observations from 185 publications, we show that land use conversion from natural to managed ecosystems significantly reduced NNM by 7.5% (−11.5, −2.8%) and increased NN by 150% (86, 194%), indicating decreasing N availability while increasing potential N loss through denitrification and nitrate leaching. …”

Magnification X2 of Fig 4A. by Huan W. Yang (19746645)

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