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when warm air rises cooler air moves in to replace it

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What is an abiotic that affects a fresh water ecosystem?

temperature, current, and turbidity A+temperature, current, and turbidity


What is the relationship between turbidity and temperature?

Turbidity and temperature can be interrelated in aquatic environments. Generally, warmer temperatures can increase the growth of algae and microorganisms, leading to higher turbidity levels due to increased suspended particles. Additionally, temperature affects the solubility of gases and the density of water, which can influence the distribution of sediments and pollutants, further impacting turbidity. However, the exact relationship can vary based on specific environmental conditions and water body characteristics.


What is the relationship between temperature and turbidity of borehole water?

The relationship between temperature and turbidity in borehole water can be complex. Generally, higher temperatures can increase the solubility of minerals and organic materials, potentially leading to higher turbidity levels as more particles become suspended. Additionally, warmer temperatures can promote biological activity, such as the growth of algae or bacteria, which can also contribute to increased turbidity. However, the specific relationship may vary depending on local geological and environmental conditions.


What does water temperature do when turbidity increases?

When turbidity increases in water, it can affect the temperature in several ways. Higher turbidity often indicates the presence of suspended particles, which can absorb sunlight and lead to localized warming. However, the increased particles can also reduce light penetration, limiting the amount of solar energy that reaches deeper water layers, potentially resulting in cooler temperatures at those depths. Overall, the impact on temperature can vary based on the specific conditions and the nature of the suspended materials.


How do you test turbidity in sand?

Turbidity in sand can be tested by taking a sample of the sand and mixing it with water in a clear container. After stirring the mixture, observe how quickly the water clears up — the longer it takes for the water to clarify, the higher the turbidity of the sand. Additionally, turbidity can also be measured using a turbidity meter, which provides a numerical value of turbidity in nephelometric turbidity units (NTU).

Related Questions

What is an abiotic that affects a fresh water ecosystem?

temperature, current, and turbidity A+temperature, current, and turbidity


How are turbidity current and submarine canyons related?

By mud slides


What is the relationship between turbidity and temperature?

Turbidity and temperature can be interrelated in aquatic environments. Generally, warmer temperatures can increase the growth of algae and microorganisms, leading to higher turbidity levels due to increased suspended particles. Additionally, temperature affects the solubility of gases and the density of water, which can influence the distribution of sediments and pollutants, further impacting turbidity. However, the exact relationship can vary based on specific environmental conditions and water body characteristics.


What can you measure about water?

Temperature, volume, as well as a break down of contents including contaminants. BOD, COD, Turbidity, conductivity and many more. Please see related link on indicators of drinking water.


How does temperature and turbidity affect irrigation channels?

beacasue sht happens dont sht dcks about it


How are turbidity currents related to submarine canyons?

Created by a series of complex processes, submarine canyons continue to be carved by sporadic turbidity currents waterfalls of sand, gravel, and muddy sediments.


What is the relationship between temperature and turbidity of borehole water?

The relationship between temperature and turbidity in borehole water can be complex. Generally, higher temperatures can increase the solubility of minerals and organic materials, potentially leading to higher turbidity levels as more particles become suspended. Additionally, warmer temperatures can promote biological activity, such as the growth of algae or bacteria, which can also contribute to increased turbidity. However, the specific relationship may vary depending on local geological and environmental conditions.


Is turbidity and optical density is same?

Turbidity measures the cloudiness of a liquid caused by suspended solids, while optical density measures the amount of light absorbed by a sample. They are related in the sense that turbidity can affect optical density measurements, but they are not the same. Turbidity is a measure of the scattering of light by particles in a sample, while optical density is a measure of the absorption of light by a sample.


What causes turbidity in lagoons What is the reliability of turbidity data?

turbidity is pollution, thus runoffs and fertilizer and anything that makes up pollution is turbidity.


What are some Physical features surrounding a river or stream?

-turbidity -shade and cover -substrate -temperature -riparian zone


What does water temperature do when turbidity increases?

When turbidity increases in water, it can affect the temperature in several ways. Higher turbidity often indicates the presence of suspended particles, which can absorb sunlight and lead to localized warming. However, the increased particles can also reduce light penetration, limiting the amount of solar energy that reaches deeper water layers, potentially resulting in cooler temperatures at those depths. Overall, the impact on temperature can vary based on the specific conditions and the nature of the suspended materials.


What effects turbidity?

Turbidity is primarily affected by the presence of suspended particles in water, such as sediments, organic matter, algae, and microorganisms. Factors contributing to increased turbidity include erosion, runoff, and disturbances in aquatic environments. Human activities, such as construction and agriculture, can exacerbate turbidity levels by introducing more particles into water bodies. Additionally, changes in water flow and temperature can also influence the distribution and stability of suspended materials.