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Precipitation Processes01:12

Precipitation Processes

1.7K
The experimental conditions in a gravimetric analysis should be optimized to maximize the particle size and purity of the obtained precipitate. Ideally, the concentration of the precipitating reagent should be low with effective stirring to maintain low relative supersaturation for the growth of large crystals. In homogeneous precipitation, the precipitant is slowly generated by a chemical reaction in the solution to avoid local reagent excesses. For example, urea decomposes gradually to...
1.7K
Precipitation and Co-precipitation01:17

Precipitation and Co-precipitation

3.0K
Precipitation and coprecipitation methods can be used to separate a mixture of ions in a solution. In qualitative inorganic analysis, ions that form sparingly soluble precipitates with the same reagent are separated based on the differences in solubility products. For example, consider the separation of Cu(II) and Fe(II) ions by precipitation as insoluble sulfides. First, copper(II) sulfide is precipitated by the addition of acidic H2S, where the dissociation of H2S is suppressed. Adding H2S...
3.0K
Boundary Layer Characteristics01:18

Boundary Layer Characteristics

279
When a fluid encounters a solid surface, a boundary layer forms due to the interaction between the fluid's motion and the stationary surface. This phenomenon is characterized by a thin region adjacent to the surface where viscous forces dominate, influencing the fluid's velocity profile. The development of the boundary layer begins at the leading edge of the surface and evolves as the fluid moves downstream.As the fluid flows over the surface, friction between the fluid and the wall slows down...
279
What is Climate?01:16

What is Climate?

19.5K
Climate refers to the prevailing weather conditions in a specific area over an extended period. As the saying goes, “Climate is what you expect. Weather is what you get.” Climate is influenced by geographic factors, such as latitude, terrain, and proximity to bodies of water.
19.5K
Influence of Earth's Curvature and Atmospheric Refraction on Leveling01:26

Influence of Earth's Curvature and Atmospheric Refraction on Leveling

413
During leveling, the Earth's curvature and atmospheric refraction introduce deviations in the line of sight from a true horizontal reference. When the line of sight is leveled, it remains perpendicular to the plumb line only at a single point. Beyond this, it deviates due to the Earth’s curvature, represented by the correction C. For a sight distance D, the deviation can be derived using the relationship:This relationship shows that the deviation increases quadratically with distance.
413
Variation of Atmospheric Pressure01:18

Variation of Atmospheric Pressure

3.4K
Change in atmospheric pressure with height is particularly interesting. The decrease in atmospheric pressure with increasing altitude is due to the decreasing gravitational force per unit area as we move away from the surface of the earth.
Assuming the air temperature is constant at a given altitude and that the ideal gas law of thermodynamics describes the atmosphere to a good approximation, one can find the variation of atmospheric pressure with height.
Let p(y) be the atmospheric pressure at...
3.4K

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Related Experiment Video

Updated: Oct 30, 2025

Exploring the Effects of Atmospheric Forcings on Evaporation: Experimental Integration of the Atmospheric Boundary Layer and Shallow Subsurface
13:27

Exploring the Effects of Atmospheric Forcings on Evaporation: Experimental Integration of the Atmospheric Boundary Layer and Shallow Subsurface

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Emergent Constraints on Regional Cloud Feedbacks.

Nicholas J Lutsko1, Max Popp2,3, Robert H Nazarian4

  • 1Scripps Institution of Oceanography University of California at San Diego La Jolla CA USA.

Geophysical Research Letters
|July 5, 2021
PubMed
Summary
This summary is machine-generated.

New methods using tropical cloud variability can reduce climate model uncertainty. This research shows tropical cloud feedback is likely positive, improving climate sensitivity predictions.

Keywords:
Climate sensitivitycloud feedbacksemergent constrainttropical clouds

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Area of Science:

  • Climate Science
  • Atmospheric Physics
  • Earth System Science

Background:

  • Emergent constraints on climate sensitivity face challenges with new climate models.
  • Previous methods focused on global-mean climate sensitivity, not regional feedbacks.

Purpose of the Study:

  • Investigate emergent constraints for regional cloud feedbacks, specifically in the tropics.
  • Reduce uncertainty in tropical cloud feedback estimates.
  • Explore potential constraints in other specific Earth regions.

Main Methods:

  • Analyze monthly and interannual variability of tropical clouds.
  • Correlate cloud variability with tropical net cloud feedback in climate models.
  • Utilize observational data to constrain model-based relationships.

Main Results:

  • Identified strong relationships between tropical cloud variability and net cloud feedback.
  • Substantially narrowed uncertainty in tropical cloud feedback, indicating it is likely >0 Wm⁻²K⁻¹.
  • Found promising, but not robust, relationships in the 90°-60°S and 30°-60°N regions.

Conclusions:

  • Regional emergent constraints, particularly using tropical cloud variability, offer a promising avenue to reduce climate sensitivity uncertainty.
  • Tropical cloud feedback is likely positive, contributing to improved climate projections.
  • Further research is needed to understand and robustly apply emergent constraints in other Earth regions.