In most fish tanks the water is pumped through filters to control turbidity.
Cloudyness (turbidity) of the water is due to suspended particles in the column. The particles can be bacteria, suspended solids or gaseous air bubbles. Simple osmosis will eventually dissipate the latter. Mechanical filtration will remove the suspended solids that do not sink to the bottom and a combination of filtration and water changes will remove the first named cause (bacteria).
To control the turbidity in an aquarium, make sure there is adequate filtration and water flow. Also make sure the water is clean to maintain low nutrient levels.
In most cases you shouldn't have a lot of turbidity. If you find that you do then see if you can angle your filter in a different way or get another filter that limits water movement.
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).
Water turbidity is a measure of the cloudiness or haziness of a liquid caused by suspended particles. It is an important indicator of water quality as high turbidity levels can affect the health of aquatic ecosystems and make water unsafe for drinking. Turbidity is measured in nephelometric turbidity units (NTU) using a turbidimeter.
You can control turbidity in water by using techniques such as filtration, settling, or chemical coagulation. Filtration involves passing water through a filter medium to remove suspended particles. Settling allows particles to settle to the bottom of a container before removing clear water from the top. Chemical coagulation involves adding chemicals to water to bind particles together, making it easier to remove them.
Turbidity in rivers is caused by the flowing water picking up sediment, which muddies the water.
temperature, current, and turbidity A+temperature, current, and turbidity
Turbidity
Turbidity currents result from water mixing with sediment or suspended particles, creating a denser flow that moves along the seafloor.
i have tested the to doing charts and graphs and when stream flow is fast the turbidity raises and and when the stream flow decreases so does the turbidity
Excessive turbidity in water is bad as it can indicate the presence of suspended particles, pathogens, and pollutants. High turbidity levels can interfere with disinfection processes, reduce water clarity, and impact aquatic life by blocking sunlight. The acceptable turbidity levels in drinking water are typically set by regulatory agencies to ensure safety for consumption.
Turbidity (clarity) of water can be measured with a WAV monitor of a Nephelometer. WAV monitors use a turbidity tube that allows an estimate of water quality based on a visual assessment of the amount of light that is scattered and absorbed in the water sample. This method is useful during and immediately after rain storms. When measuring turbidity in the laboratory, a meter called a Nephelometer is used. It measures the amount of light scattered by the particles in the water in Nephelometric Turbidity Units (NTUs). Deb